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Classes | Public Member Functions | Public Attributes | Private Member Functions | Private Attributes

FourVectorHLTOnline Class Reference

#include <FourVectorHLTOnline.h>

Inheritance diagram for FourVectorHLTOnline:
edm::EDAnalyzer edm::EDConsumerBase

List of all members.

Classes

class  PathInfo
class  PathInfoCollection

Public Member Functions

void cleanDRMatchSet (mmset &tempSet)
 Clean DR Match Set.
 FourVectorHLTOnline (const edm::ParameterSet &)
 ~FourVectorHLTOnline ()

Public Attributes

edm::Handle
< trigger::TriggerEvent
fTriggerObj
PathInfoCollection hltPaths_
PathInfoCollection hltPathsDiagonal_

Private Member Functions

virtual void analyze (const edm::Event &, const edm::EventSetup &)
virtual void beginJob ()
void beginLuminosityBlock (const edm::LuminosityBlock &lumiSeg, const edm::EventSetup &c)
void beginRun (const edm::Run &run, const edm::EventSetup &c)
void countHLTGroupBXHitsEndLumiBlock (const int &lumi)
void countHLTGroupHitsEndLumiBlock (const int &lumi)
void countHLTGroupL1HitsEndLumiBlock (const int &lumi)
void countHLTPathHitsEndLumiBlock (const int &lumi)
virtual void endJob ()
void endLuminosityBlock (const edm::LuminosityBlock &lumiSeg, const edm::EventSetup &c)
void endRun (const edm::Run &run, const edm::EventSetup &c)
 EndRun.
void fillHltMatrix (const edm::TriggerNames &triggerNames)
const std::string getL1ConditionModuleName (const std::string &pathname)
int getTriggerTypeParsePathName (const std::string &pathname)
bool hasHLTPassed (const std::string &pathname, const edm::TriggerNames &triggerNames)
bool hasL1Passed (const std::string &pathname, const edm::TriggerNames &triggerNames)
void setupHltBxPlots ()
void setupHltLsPlots ()
void setupHltMatrix (std::string label, std::vector< std::string > paths)

Private Attributes

double bjetDRMatch_
double bjetEtaMax_
double bjetEtMin_
int currentRun_
std::vector< std::pair
< std::string, std::string > > 
custompathnamepairs_
DQMStoredbe_
std::string dirname_
double electronDRMatch_
double electronEtaMax_
double electronEtMin_
std::string fCustomBXPath
std::vector< std::pair
< std::string, int > > 
fGroupL1TempCountPair
std::vector< std::string > fGroupName
std::vector< std::pair
< std::string, std::vector
< std::string > > > 
fGroupNamePathsPair
std::vector< std::pair
< std::string, int > > 
fGroupTempCountPair
bool fLumiFlag
std::vector< std::pair
< std::string, std::vector
< int > > > 
fPathBxTempCountPair
std::vector< std::pair
< std::string, int > > 
fPathTempCountPair
HLTConfigProvider hltConfig_
double htDRMatch_
double htEtaMax_
double htMin_
double jetDRMatch_
double jetEtaMax_
double jetEtMin_
MonitorElementME_HLT_BX_
MonitorElementME_HLT_CUSTOM_BX_
MonitorElementME_HLTAll_LS_
double metDRMatch_
double metEtaMax_
double metMin_
bool monitorDaemon_
double muonDRMatch_
double muonEtaMax_
double muonEtMin_
std::string muonRecoCollectionName_
unsigned int nBins_
unsigned int nBinsOneOverEt_
unsigned int Nbx_
int nev_
unsigned int nLS_
std::string pathsIndividualHLTPathsPerLSFolder_
std::string pathsSummaryFilterCountsFolder_
std::string pathsSummaryFilterEfficiencyFolder_
std::string pathsSummaryFolder_
std::string pathsSummaryHLTCorrelationsFolder_
std::string pathsSummaryHLTPathsPerBXFolder_
std::string pathsSummaryHLTPathsPerLSFolder_
double photonDRMatch_
double photonEtaMax_
double photonEtMin_
bool plotAll_
std::string processname_
double ptMax_
double ptMin_
unsigned int referenceBX_
bool resetMe_
MonitorElementscalersSelect
std::vector< std::string > specialPaths_
double sumEtMin_
double tauDRMatch_
double tauEtaMax_
double tauEtMin_
int theHLTOutputType
double trackDRMatch_
double trackEtaMax_
double trackEtMin_
std::vector< std::vector< uint > > triggerFilterIndices_
std::vector< std::vector
< std::string > > 
triggerFilters_
edm::Handle< edm::TriggerResultstriggerResults_
edm::InputTag triggerResultsLabel_
edm::InputTag triggerSummaryLabel_
std::vector< MonitorElement * > v_ME_HLTAll_LS_

Detailed Description

Description: This is a DQM source meant to plot high-level HLT trigger quantities as stored in the HLT results object TriggerResults

Implementation: <Notes on="" implementation>="">

Definition at line 76 of file FourVectorHLTOnline.h.


Constructor & Destructor Documentation

FourVectorHLTOnline::FourVectorHLTOnline ( const edm::ParameterSet iConfig) [explicit]

Definition at line 15 of file FourVectorHLTOnline.cc.

References bjetDRMatch_, bjetEtaMax_, bjetEtMin_, DQMStore::book1D(), custompathnamepairs_, dbe_, dirname_, electronDRMatch_, electronEtaMax_, electronEtMin_, fCustomBXPath, fLumiFlag, edm::ParameterSet::getParameter(), edm::ParameterSet::getUntrackedParameter(), hltPaths_, htDRMatch_, htEtaMax_, htMin_, jetDRMatch_, jetEtaMax_, jetEtMin_, LogDebug, ME_HLT_BX_, ME_HLT_CUSTOM_BX_, ME_HLTAll_LS_, metDRMatch_, metEtaMax_, metMin_, muonDRMatch_, muonEtaMax_, muonEtMin_, muonRecoCollectionName_, nBins_, nBinsOneOverEt_, Nbx_, nLS_, NULL, cppFunctionSkipper::operator, EgammaValidation_cff::paths, pathsIndividualHLTPathsPerLSFolder_, pathsSummaryFilterCountsFolder_, pathsSummaryFolder_, pathsSummaryHLTCorrelationsFolder_, pathsSummaryHLTPathsPerBXFolder_, pathsSummaryHLTPathsPerLSFolder_, photonDRMatch_, photonEtaMax_, photonEtMin_, plotAll_, processname_, ptMax_, ptMin_, referenceBX_, scalersSelect, DQMStore::setCurrentFolder(), DQMStore::setVerbose(), specialPaths_, AlCaHLTBitMon_QueryRunRegistry::string, sumEtMin_, tauDRMatch_, tauEtaMax_, tauEtMin_, trackDRMatch_, trackEtaMax_, trackEtMin_, triggerResultsLabel_, and triggerSummaryLabel_.

                                                                      :
  resetMe_(true),  currentRun_(-99)
{

  LogDebug("FourVectorHLTOnline") << "constructor...." ;

  dbe_ = Service < DQMStore > ().operator->();
  if ( ! dbe_ ) {
    LogInfo("FourVectorHLTOnline") << "unabel to get DQMStore service?";
  }
  if (iConfig.getUntrackedParameter < bool > ("DQMStore", false)) {
    dbe_->setVerbose(0);
  }
  
  dirname_ = iConfig.getUntrackedParameter("dirname", std::string("HLT/FourVector/"));
  //dirname_ +=  iConfig.getParameter<std::string>("@module_label");
  
  if (dbe_ != 0 ) {
    dbe_->setCurrentFolder(dirname_);
  }
  
  processname_ = iConfig.getParameter<std::string>("processname");
  fCustomBXPath = iConfig.getUntrackedParameter<std::string>("customBXPath", std::string("HLT_MinBiasBSC"));

  referenceBX_ = iConfig.getUntrackedParameter<unsigned int>("referenceBX",51);
  Nbx_ = iConfig.getUntrackedParameter<unsigned int>("Nbx",3564);

  // plotting paramters
  ptMin_ = iConfig.getUntrackedParameter<double>("ptMin",0.);
  ptMax_ = iConfig.getUntrackedParameter<double>("ptMax",1000.);
  nBins_ = iConfig.getUntrackedParameter<unsigned int>("Nbins",20);
  nBinsOneOverEt_ = iConfig.getUntrackedParameter<unsigned int>("NbinsOneOverEt",10000);
  nLS_   = iConfig.getUntrackedParameter<unsigned int>("NLuminositySegments",10);

  
  plotAll_ = iConfig.getUntrackedParameter<bool>("plotAll", false);
     // this is the list of paths to look at.
  std::vector<edm::ParameterSet> paths = 
  iConfig.getParameter<std::vector<edm::ParameterSet> >("paths");

  for(std::vector<edm::ParameterSet>::iterator pathconf = paths.begin() ; pathconf != paths.end(); pathconf++) {

    //std::pair<std::string, std::string> custompathnamepair;
    //custompathnamepair.first =pathconf->getParameter<std::string>("pathname"); 
    //custompathnamepair.second = pathconf->getParameter<std::string>("denompathname");   
    //custompathnamepairs_.push_back(custompathnamepair);
    custompathnamepairs_.push_back(
        make_pair(
          pathconf->getParameter<std::string>("pathname"),
          pathconf->getParameter<std::string>("denompathname")
        )
    );

  }

  if (hltPaths_.size() > 0)
  {
      // book a histogram of scalers
     scalersSelect = dbe_->book1D("selectedScalers","Selected Scalers", hltPaths_.size(), 0.0, (double)hltPaths_.size());

  }

  triggerSummaryLabel_ = iConfig.getParameter<edm::InputTag>("triggerSummaryLabel");
  triggerResultsLabel_ = iConfig.getParameter<edm::InputTag>("triggerResultsLabel");
  muonRecoCollectionName_ = iConfig.getUntrackedParameter("muonRecoCollectionName", std::string("muons"));

  electronEtaMax_ = iConfig.getUntrackedParameter<double>("electronEtaMax",2.5);
  electronEtMin_ = iConfig.getUntrackedParameter<double>("electronEtMin",3.0);
  electronDRMatch_  =iConfig.getUntrackedParameter<double>("electronDRMatch",0.3); 

  muonEtaMax_ = iConfig.getUntrackedParameter<double>("muonEtaMax",2.1);
  muonEtMin_ = iConfig.getUntrackedParameter<double>("muonEtMin",3.0);
  muonDRMatch_  =iConfig.getUntrackedParameter<double>("muonDRMatch",0.3); 

  tauEtaMax_ = iConfig.getUntrackedParameter<double>("tauEtaMax",2.5);
  tauEtMin_ = iConfig.getUntrackedParameter<double>("tauEtMin",3.0);
  tauDRMatch_  =iConfig.getUntrackedParameter<double>("tauDRMatch",0.3); 

  jetEtaMax_ = iConfig.getUntrackedParameter<double>("jetEtaMax",5.0);
  jetEtMin_ = iConfig.getUntrackedParameter<double>("jetEtMin",10.0);
  jetDRMatch_  =iConfig.getUntrackedParameter<double>("jetDRMatch",0.3); 

  bjetEtaMax_ = iConfig.getUntrackedParameter<double>("bjetEtaMax",2.5);
  bjetEtMin_ = iConfig.getUntrackedParameter<double>("bjetEtMin",10.0);
  bjetDRMatch_  =iConfig.getUntrackedParameter<double>("bjetDRMatch",0.3); 

  photonEtaMax_ = iConfig.getUntrackedParameter<double>("photonEtaMax",2.5);
  photonEtMin_ = iConfig.getUntrackedParameter<double>("photonEtMin",3.0);
  photonDRMatch_  =iConfig.getUntrackedParameter<double>("photonDRMatch",0.3); 

  trackEtaMax_ = iConfig.getUntrackedParameter<double>("trackEtaMax",2.5);
  trackEtMin_ = iConfig.getUntrackedParameter<double>("trackEtMin",3.0);
  trackDRMatch_  =iConfig.getUntrackedParameter<double>("trackDRMatch",0.3); 

  metEtaMax_ = iConfig.getUntrackedParameter<double>("metEtaMax",5);
  metMin_ = iConfig.getUntrackedParameter<double>("metMin",10.0);
  metDRMatch_  =iConfig.getUntrackedParameter<double>("metDRMatch",0.5); 

  htEtaMax_ = iConfig.getUntrackedParameter<double>("htEtaMax",5);
  htMin_ = iConfig.getUntrackedParameter<double>("htMin",10.0);
  htDRMatch_  =iConfig.getUntrackedParameter<double>("htDRMatch",0.5); 

  sumEtMin_ = iConfig.getUntrackedParameter<double>("sumEtMin",10.0);

  specialPaths_ = iConfig.getParameter<std::vector<std::string > >("SpecialPaths");

  pathsSummaryFolder_ = iConfig.getUntrackedParameter ("pathsSummaryFolder",std::string("HLT/FourVector/PathsSummary/"));
  pathsSummaryHLTCorrelationsFolder_ = iConfig.getUntrackedParameter ("hltCorrelationsFolder",std::string("HLT/FourVector/PathsSummary/HLT Correlations/"));
  pathsSummaryFilterCountsFolder_ = iConfig.getUntrackedParameter ("filterCountsFolder",std::string("HLT/FourVector/PathsSummary/Filters Counts/"));

  pathsSummaryHLTPathsPerLSFolder_ = iConfig.getUntrackedParameter ("individualPathsPerLSFolder",std::string("HLT/FourVector/PathsSummary/HLT LS/"));
  pathsIndividualHLTPathsPerLSFolder_ = iConfig.getUntrackedParameter ("individualPathsPerLSFolder",std::string("HLT/FourVector/PathsSummary/HLT LS/Paths/"));
  pathsSummaryHLTPathsPerBXFolder_ = iConfig.getUntrackedParameter ("individualPathsPerBXFolder",std::string("HLT/FourVector/PathsSummary/HLT BX/"));

  fLumiFlag = true;
  ME_HLTAll_LS_ = NULL;
  ME_HLT_BX_ = NULL;
  ME_HLT_CUSTOM_BX_ = NULL;
  
}
FourVectorHLTOnline::~FourVectorHLTOnline ( )

Definition at line 137 of file FourVectorHLTOnline.cc.

{
 
   // do anything here that needs to be done at desctruction time
   // (e.g. close files, deallocate resources etc.)

}

Member Function Documentation

void FourVectorHLTOnline::analyze ( const edm::Event iEvent,
const edm::EventSetup iSetup 
) [private, virtual]

Implements edm::EDAnalyzer.

Definition at line 152 of file FourVectorHLTOnline.cc.

References plotTTrigFromHistos::binNumber(), bjetDRMatch_, bjetEtaMax_, bjetEtMin_, edm::EventBase::bunchCrossing(), BaseMonitor::clearSets(), electronDRMatch_, electronEtaMax_, electronEtMin_, fCustomBXPath, MonitorElement::Fill(), BaseMonitor::fillOnlineMatch(), fTriggerObj, edm::Event::getByLabel(), MonitorElement::getTH2F(), gsfElectrons_cfi::gsfElectrons, hasHLTPassed(), hltConfig_, hltPaths_, hltPathsDiagonal_, i, edm::InputTag::instance(), edm::HandleBase::isValid(), jetDRMatch_, jetEtaMax_, jetEtMin_, edm::InputTag::label(), LogDebug, LogTrace, ME_HLT_BX_, ME_HLT_CUSTOM_BX_, metDRMatch_, metEtaMax_, metMin_, HLTConfigProvider::moduleLabels(), LaserDQM_cfi::mon, BaseMonitor::monitorL1(), BaseMonitor::monitorOnline(), muonDRMatch_, muonEtaMax_, muonEtMin_, muonRecoCollectionName_, nev_, NULL, photonDRMatch_, photonEtaMax_, photonEtMin_, processname_, objMonData< T >::setBJetsFlag(), objMonData< T >::setLimits(), BaseMonitor::setPath(), objMonData< T >::setReco(), tauDRMatch_, tauEtaMax_, tauEtMin_, trigger::TriggerBJet, trigger::TriggerElectron, trigger::TriggerJet, trigger::TriggerL1CenJet, trigger::TriggerL1ETM, trigger::TriggerL1ETT, trigger::TriggerL1ForJet, trigger::TriggerL1IsoEG, trigger::TriggerL1Mu, trigger::TriggerL1NoIsoEG, trigger::TriggerL1TauJet, trigger::TriggerMET, trigger::TriggerMuon, edm::Event::triggerNames(), trigger::TriggerPhoton, patRefSel_triggerSelection_cff::triggerResults, triggerResults_, triggerResultsLabel_, triggerSummaryLabel_, trigger::TriggerTau, trigger::TriggerTET, and findQualityFiles::v.

{

  //if(! fLumiFlag ) return;

  using namespace edm;
  using namespace trigger;
  ++nev_;
  LogDebug("FourVectorHLTOnline")<< " analyze...." ;


  
  /*
  Handle<GenParticleCollection> genParticles;
  iEvent.getByLabel("genParticles", genParticles);
  if(!genParticles.isValid()) { 
    edm::LogInfo("FourVectorHLTOnline") << "genParticles not found, "
      "skipping event"; 
    return;
  }

  Handle<GenJetCollection> genJets;
  iEvent.getByLabel("iterativeCone5GenJets",genJets);
  if(!genJets.isValid()) { 
    edm::LogInfo("FourVectorHLTOnline") << "genJets not found, "
      "skipping event"; 
    return;
  }

  Handle<GenMETCollection> genMets;
  iEvent.getByLabel("genMetTrue",genMets);
  if(!genMets.isValid()) { 
    edm::LogInfo("FourVectorHLTOnline") << "genMets not found, "
      "skipping event"; 
    return;
  }
  */

  // Get trigger results
  
  edm::Handle<TriggerResults> triggerResults;
  iEvent.getByLabel(triggerResultsLabel_,triggerResults);
  if(!triggerResults.isValid()) {
    edm::InputTag triggerResultsLabelFU(triggerResultsLabel_.label(),triggerResultsLabel_.instance(), "FU");
   iEvent.getByLabel(triggerResultsLabelFU,triggerResults);
  if(!triggerResults.isValid()) {
    edm::LogInfo("FourVectorHLTOnline") << "TriggerResults not found, "
      "skipping event"; 
    return;
   }
  }
  triggerResults_ = triggerResults;
  const edm::TriggerNames & triggerNames = iEvent.triggerNames(*triggerResults);
  int npath = triggerResults->size();

  iEvent.getByLabel(triggerSummaryLabel_,fTriggerObj); 
  if(!fTriggerObj.isValid()) {

    edm::InputTag triggerSummaryLabelFU(triggerSummaryLabel_.label(),triggerSummaryLabel_.instance(), "FU");
    iEvent.getByLabel(triggerSummaryLabelFU,fTriggerObj);

    if(!fTriggerObj.isValid()) {

      edm::LogInfo("FourVectorHLTOnline") << "TriggerEvent not found, " "skipping event"; 
      return;

    }

  }

  edm::Handle<TriggerResults> muonHandle;
  iEvent.getByLabel(muonRecoCollectionName_,muonHandle);
  if(!muonHandle.isValid()) { 

    edm::LogInfo("FourVectorHLTOnline") << "muonHandle not found, ";
    //  "skipping event"; 
    //  return;

  }


  edm::Handle<TriggerResults> gsfElectrons;
  iEvent.getByLabel("gsfElectrons",gsfElectrons); 
  if(!gsfElectrons.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "gsfElectrons not found, ";

  edm::Handle<TriggerResults> tauHandle;
  iEvent.getByLabel("caloRecoTauProducer",tauHandle);
  if(!tauHandle.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "tauHandle not found, ";

  edm::Handle<TriggerResults> jetHandle;
  iEvent.getByLabel("iterativeCone5CaloJets",jetHandle);
  if(!jetHandle.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "jetHandle not found, ";
 
   // Get b tag information
 edm::Handle<TriggerResults> bTagIPHandle;
 iEvent.getByLabel("jetProbabilityBJetTags", bTagIPHandle);
 if (!bTagIPHandle.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "mTagIPHandle trackCountingHighEffJetTags not found, ";

   // Get b tag information
 edm::Handle<TriggerResults> bTagMuHandle;
 iEvent.getByLabel("softMuonBJetTags", bTagMuHandle);
 if (!bTagMuHandle.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "bTagMuHandle  not found, ";

  edm::Handle<TriggerResults> metHandle;
  iEvent.getByLabel("met",metHandle);
  if(!metHandle.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "metHandle not found, ";

  edm::Handle<TriggerResults> photonHandle;
  iEvent.getByLabel("photons",photonHandle);
  if(!photonHandle.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "photonHandle not found, ";

  edm::Handle<TriggerResults> trackHandle;
  iEvent.getByLabel("pixelTracks",trackHandle);
  if(!trackHandle.isValid()) 
    edm::LogInfo("FourVectorHLTOnline") << "trackHandle not found, ";

  // ---------------------
  // Monitors
  // ---------------------

  // electron Monitor
  objMonData<TriggerResults> eleMon;
  eleMon.setReco(gsfElectrons);
  eleMon.setLimits(electronEtaMax_, electronEtMin_, electronDRMatch_);
  
  eleMon.pushTriggerType(TriggerElectron);
  eleMon.pushTriggerType(TriggerL1NoIsoEG);
  eleMon.pushTriggerType(TriggerL1IsoEG);

  eleMon.pushL1TriggerType(TriggerL1NoIsoEG);
  eleMon.pushL1TriggerType(TriggerL1IsoEG);

  // muon Monitor
  objMonData<TriggerResults>  muoMon;
  muoMon.setReco(muonHandle);
  muoMon.setLimits(muonEtaMax_, muonEtMin_, muonDRMatch_);
  
  muoMon.pushTriggerType(TriggerMuon);
  muoMon.pushTriggerType(TriggerL1Mu);

  muoMon.pushL1TriggerType(TriggerL1Mu);
  
  // tau Monitor
  objMonData<TriggerResults>  tauMon;
  tauMon.setReco(tauHandle);
  tauMon.setLimits(tauEtaMax_, tauEtMin_, tauDRMatch_);
  
  tauMon.pushTriggerType(TriggerTau);
  tauMon.pushTriggerType(TriggerL1TauJet);

  tauMon.pushL1TriggerType(TriggerL1TauJet);
  tauMon.pushL1TriggerType(TriggerL1ForJet);
  
  // photon Monitor
  objMonData<TriggerResults> phoMon;
  phoMon.setReco(photonHandle);
  phoMon.setLimits(photonEtaMax_, photonEtMin_, photonDRMatch_);
  
  phoMon.pushTriggerType(TriggerPhoton);

  phoMon.pushL1TriggerType(TriggerL1NoIsoEG);
  phoMon.pushL1TriggerType(TriggerL1IsoEG);

  // jet Monitor - NOTICE: we use genJets for MC
  objMonData<TriggerResults> jetMon;
  jetMon.setReco(jetHandle);
  jetMon.setLimits(jetEtaMax_, jetEtMin_, jetDRMatch_);

  jetMon.pushTriggerType(TriggerJet);
  jetMon.pushTriggerType(TriggerL1CenJet);
  jetMon.pushTriggerType(TriggerL1ForJet);
  
  jetMon.pushL1TriggerType(TriggerL1CenJet);
  jetMon.pushL1TriggerType(TriggerL1ForJet);
  jetMon.pushL1TriggerType(TriggerL1TauJet);

  // bjet Monitor - NOTICE: we use genJets for MC
  objMonData<TriggerResults> btagIPMon; // CaloJet will not be used, this is only place holder
  //btagIPMon.setReco(jetHandle);
  btagIPMon.setBJetsFlag(true);
  btagIPMon.setLimits(bjetEtaMax_, bjetEtMin_, bjetDRMatch_);

  btagIPMon.pushTriggerType(TriggerBJet);
  btagIPMon.pushTriggerType(TriggerJet);

  btagIPMon.pushL1TriggerType(TriggerL1CenJet);
  btagIPMon.pushL1TriggerType(TriggerL1ForJet);
  btagIPMon.pushL1TriggerType(TriggerL1TauJet);

  objMonData<TriggerResults> btagMuMon; // CaloJet will not be used, this is only place holder
  //btagMuMon.setReco(jetHandle);
  btagMuMon.setBJetsFlag(true);
  btagMuMon.setLimits(bjetEtaMax_, bjetEtMin_, bjetDRMatch_);

  btagMuMon.pushTriggerType(TriggerBJet);
  btagMuMon.pushTriggerType(TriggerJet);

  btagMuMon.pushL1TriggerType(TriggerL1CenJet);
  btagMuMon.pushL1TriggerType(TriggerL1ForJet);
  btagMuMon.pushL1TriggerType(TriggerL1TauJet);


  objMonData<TriggerResults> btagMon; // Generic btagMon
 
  // met Monitor
  objMonData<TriggerResults> metMon;
  metMon.setReco(metHandle);
  metMon.setLimits(metEtaMax_, metMin_, metDRMatch_);
  
  metMon.pushTriggerType(TriggerMET);

  metMon.pushL1TriggerType(TriggerL1ETM);

  // tet Monitor
  objMonData<TriggerResults> tetMon;
  tetMon.setReco(metHandle);
  //tetMon.setLimits(tetEtaMax_=999., tetEtMin_=10, tetDRMatch_=999);
  tetMon.setLimits(999., 10., 999.);
  
  tetMon.pushTriggerType(TriggerTET);

  tetMon.pushL1TriggerType(TriggerL1ETT);

  // default Monitor
  //objMonData<trigger::TriggerEvent> defMon;
  objMonData<TriggerResults> defMon;
  defMon.setLimits(999., 3., 999.);

  // vector to hold monitors 
  // interface is through virtual class BaseMonitor
  std::vector<BaseMonitor*> monitors;

  //monitors.push_back(&jetMon);

  monitors.push_back(&muoMon);
  monitors.push_back(&eleMon);
  monitors.push_back(&tauMon);
  monitors.push_back(&phoMon);
  monitors.push_back(&jetMon);
  monitors.push_back(&btagMon);
  monitors.push_back(&metMon);
  monitors.push_back(&tetMon);

  int bx = iEvent.bunchCrossing();
  /*
  // Fill HLTPassed_Correlation Matrix bin (i,j) = (Any,Any)
  // --------------------------------------------------------
  int anyBinNumber = ME_HLTPassPass_->getTH2F()->GetXaxis()->FindBin("HLT_Any");      
  // any triger accepted
  if(triggerResults->accept()){

    ME_HLTPassPass_->Fill(anyBinNumber-1,anyBinNumber-1);//binNumber1 = 0 = first filter

  }
  */

  //fillHltMatrix(triggerNames);


  // Loop over paths
  // --------------------
  for(PathInfoCollection::iterator v = hltPathsDiagonal_.begin(); v!= hltPathsDiagonal_.end(); ++v ) { 

    LogTrace("FourVectorHLTOnline") << " unique path " << v->getPath() << std::endl;

    unsigned int pathByIndex = triggerNames.triggerIndex(v->getPath());

    // path must be in the menu
    if(pathByIndex >= triggerResults_->size() ) continue;

  
    // Fill HLTPassed Matrix and HLTPassFail Matrix
    // --------------------------------------------------------

    if(triggerResults->accept(pathByIndex)){
  
      int pathBinNumber = ME_HLT_BX_->getTH2F()->GetYaxis()->FindBin(v->getPath().c_str());      
      ME_HLT_BX_->Fill(bx,pathBinNumber-1);

      if(hasHLTPassed(fCustomBXPath,triggerNames)) {

        ME_HLT_CUSTOM_BX_->Fill(bx,pathBinNumber-1);

      }

    } // end if accept
  
    // Fill histogram of filter ocupancy for each HLT path
    // ---------------------------------
    unsigned int lastModule = triggerResults->index(pathByIndex);

    //check if hlt passed
    bool hltPathPassed = triggerResults->accept(pathByIndex);
  
    //go through the list of filters
    for(unsigned int filt = 0; filt < v->filtersAndIndices.size(); filt++){
      
      int binNumber = v->getFiltersHisto()->getTH1()->GetXaxis()->FindBin(v->filtersAndIndices[filt].first.c_str());      
      
      // if hlt path passed, then all the modules passed
      // otherwise the module that issued the decision is the first fail
      // this means that all modules before it passed
      if(hltPathPassed) {

        v->getFiltersHisto()->Fill(binNumber-1);//binNumber1 = 0 = first filter
      }
      else if(v->filtersAndIndices[filt].second < lastModule){
        v->getFiltersHisto()->Fill(binNumber-1);//binNumber1 = 0 = first filter
      }
  
    } // end for filt

  } // end for diag paths


  // Main loop over paths
  // --------------------
  for(PathInfoCollection::iterator v = hltPaths_.begin(); v!= hltPaths_.end(); ++v ) { 

    LogTrace("FourVectorHLTOnline") << " path " << v->getPath() << std::endl;

    if (v->getPath().find("BTagIP") != std::string::npos ) btagMon = btagIPMon;
    else btagMon = btagMuMon;

    //if(*v != "HLT_L1Jet6U") continue;

    unsigned int pathByIndex = triggerNames.triggerIndex(v->getPath());

    if(pathByIndex >= triggerResults_->size() ) continue;
  
    // did we pass the denomPath?
    bool denompassed = false;  

    for(int i = 0; i < npath; ++i) {

     if (triggerNames.triggerName(i).find(v->getDenomPath()) != std::string::npos && triggerResults->accept(i))
     { 
        denompassed = true;
        break;
     }
   }

   if (denompassed)
   {  

     //LogTrace("FourVectorHLTOnline") << " denominator path " << v->getPath() << std::endl;


     // Get the righe monitor for this path
     // -----------------------------------
     BaseMonitor* mon = NULL;

     for(std::vector<BaseMonitor*>::iterator mit = monitors.begin(); mit!= monitors.end(); ++mit ) {
       
       if((*mit)->isTriggerType(v->getObjectType())) {

         mon = *mit;
         break;

       }

     }

     // if cannot find moniotor for the path, go to next path
     //if(!mon) continue;

     // if cannot find moniotor for the path, assign the default
     if(!mon) mon = &defMon;

     // attach this path to mon
     mon->setPath(v);

     // clear sets of matched objects
     mon->clearSets();

     //int triggertype = 0;     
     //triggertype = v->getObjectType();

     // monitor L1 (only if L1 passed and can find GTSeed)
     bool l1accept = false;
     edm::InputTag l1testTag(v->getl1Path(),"",processname_);
     const int l1Index = fTriggerObj->filterIndex(l1testTag);
     
     if ( l1Index >= fTriggerObj->sizeFilters() ) {

       LogTrace("FourVectorHLTOnline") << "Cannot find L1GTSeed of the path " << v->getPath() << std::endl;
       LogTrace("FourVectorHLTOnline") << "\t L1GTSeed name = " << v->getl1Path() << std::endl;
       LogTrace("FourVectorHLTOnline") <<  "\t tried with tag " << l1testTag << std::endl;
       LogTrace("FourVectorHLTOnline") <<"\t module index = "<< l1Index << std::endl;

     } 

           // monitor L1 object
           mon->monitorL1(l1Index, this);
        
    // monitor Online (only if HLT passed)
          bool numpassed = false;

    // did we pass the numerator path, i.e. HLT path?
    for(int i = 0; i < npath; ++i) {

      if (triggerNames.triggerName(i) == v->getPath() && triggerResults->accept(i)) numpassed = true;

    }

    if (!numpassed) continue;

    if (!l1accept) {

          LogDebug("FourVectorHLTOnline") 
            << "This should not happen.  HLT passed, but L1 Seed not passed for hlt path "<< std::endl 
            << "HLT path: " << v->getPath() << "\t HLTLevel1GTSeed: " << v->getl1Path();

    }

    // fill scaler histograms
    edm::InputTag filterTag = v->getTag();

    // loop through indices and see if the filter is 
    // on the list of filters used by this path
    //----------------------------------------------
    if (v->getLabel() == "dummy"){
    const std::vector<std::string> filterLabels = hltConfig_.moduleLabels(v->getPath());

    //loop over labels
    for (std::vector<std::string>::const_iterator labelIter= filterLabels.begin(); labelIter!=filterLabels.end(); labelIter++) {

      edm::InputTag testTag(*labelIter,"",processname_);

      int testindex = fTriggerObj->filterIndex(testTag);

      // last match wins...
      if ( !(testindex >= fTriggerObj->sizeFilters()) ) {

        filterTag = testTag; 
        v->setLabel(*labelIter);}

      }

    } // end for
  
    const int hltIndex = fTriggerObj->filterIndex(filterTag);
    if ( hltIndex >= fTriggerObj->sizeFilters() ) {

      LogTrace("FourVectorHLTOnline") << "WTF no index of that name " << filterTag << std::endl;
      continue; // not in this event

    }

    mon->monitorOnline(hltIndex, l1Index, this);

    mon->fillOnlineMatch(l1Index, this);

   } //denompassed


 } //pathinfo loop

}
void FourVectorHLTOnline::beginJob ( void  ) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 625 of file FourVectorHLTOnline.cc.

References dirname_, nev_, cppFunctionSkipper::operator, DQMStore::rmdir(), and DQMStore::setCurrentFolder().

{
  nev_ = 0;
  DQMStore *dbe = 0;
  dbe = Service<DQMStore>().operator->();
  
  if (dbe) {
    dbe->setCurrentFolder(dirname_);
    dbe->rmdir(dirname_);
  }
  
  
  if (dbe) {
    dbe->setCurrentFolder(dirname_);
    }  
}
void FourVectorHLTOnline::beginLuminosityBlock ( const edm::LuminosityBlock lumiSeg,
const edm::EventSetup c 
) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 1681 of file FourVectorHLTOnline.cc.

                                                                                                       {   

   //int lumi = int(lumiSeg.id().luminosityBlock());
   //if(lumi < 74 || lumi > 77) fLumiFlag = false;
   //else fLumiFlag = true;

}
void FourVectorHLTOnline::beginRun ( const edm::Run run,
const edm::EventSetup c 
) [private, virtual]

add dataset name and thier triggers to the list

Reimplemented from edm::EDAnalyzer.

Definition at line 652 of file FourVectorHLTOnline.cc.

References bjetEtaMax_, DQMStore::book1D(), DQMStore::book2D(), custompathnamepairs_, HLTConfigProvider::datasetContent(), HLTConfigProvider::datasetNames(), makeLayoutFileForGui::datasetNames, dbe_, dirname_, electronEtaMax_, fGroupL1TempCountPair, fGroupName, fGroupNamePathsPair, fGroupTempCountPair, filters, first, fPathBxTempCountPair, fPathTempCountPair, g, getL1ConditionModuleName(), getTriggerTypeParsePathName(), hltConfig_, hltPaths_, hltPathsDiagonal_, i, edm::RunBase::id(), HLTConfigProvider::init(), j, jetEtaMax_, gen::k, LogDebug, LogTrace, m, metEtaMax_, HLTConfigProvider::moduleEDMType(), HLTConfigProvider::moduleIndex(), HLTConfigProvider::moduleLabels(), HLTConfigProvider::moduleType(), muonEtaMax_, n, nBins_, nBinsOneOverEt_, nLS_, cppFunctionSkipper::operator, timingPdfMaker::pathname, EgammaValidation_cff::pathName, pathsIndividualHLTPathsPerLSFolder_, pathsSummaryFilterCountsFolder_, pathsSummaryFolder_, photonEtaMax_, Pi, plotAll_, processname_, jptDQMConfig_cff::ptMax, PtMinSelector_cfg::ptMin, MonitorElement::setAxisTitle(), MonitorElement::setBinLabel(), DQMStore::setCurrentFolder(), setupHltBxPlots(), setupHltLsPlots(), HLTConfigProvider::size(), specialPaths_, AlCaHLTBitMon_QueryRunRegistry::string, tauEtaMax_, indexGen::title, trackEtaMax_, trigger::TriggerBJet, trigger::TriggerElectron, trigger::TriggerJet, trigger::TriggerL1CenJet, trigger::TriggerL1ETM, trigger::TriggerL1ForJet, trigger::TriggerL1IsoEG, trigger::TriggerL1Mu, trigger::TriggerL1NoIsoEG, trigger::TriggerL1TauJet, trigger::TriggerMET, trigger::TriggerMuon, HLTConfigProvider::triggerName(), trigger::TriggerPhoton, trigger::TriggerTau, trigger::TriggerTET, trigger::TriggerTrack, and findQualityFiles::v.

{
  LogDebug("FourVectorHLTOnline") << "beginRun, run " << run.id();

  // HLT config does not change within runs!
  bool changed=false;
 
  if (!hltConfig_.init(run, c, processname_, changed)) {
    processname_ = "FU";

    if (!hltConfig_.init(run, c, processname_, changed)){

      LogDebug("FourVectorHLTOnline") << "HLTConfigProvider failed to initialize.";

    }

    // check if trigger name in (new) config
    //  std::cout << "Available TriggerNames are: " << std::endl;
    //  hltConfig_.dump("Triggers");
  }

  if (1) {

    DQMStore *dbe = 0;
    dbe = Service<DQMStore>().operator->();
  
    if (dbe) {
      dbe->setCurrentFolder(dirname_);
    }

    const unsigned int n(hltConfig_.size());
    if (plotAll_){

      for (unsigned int j=0; j!=n; ++j) {
  
        std::string pathname = hltConfig_.triggerName(j);  

        std::string l1pathname = getL1ConditionModuleName(pathname);
      
        int objectType =  getTriggerTypeParsePathName(pathname);
  
        for (unsigned int i=0; i!=n; ++i) {
  
          std::string denompathname = hltConfig_.triggerName(i);  
          int denomobjectType =  getTriggerTypeParsePathName(denompathname);

      
         
          std::string filtername("dummy");
          float ptMin = 0.0;
          float ptMax = 100.0;
          if (plotAll_ && denomobjectType == objectType && objectType != 0)
          
            hltPaths_.push_back(PathInfo(denompathname, pathname, l1pathname, filtername, processname_, objectType, ptMin, ptMax));

        }
      }

    } // end if plotAll
    else {

      // plot all diagonal combinations plus any other specified pairs
      for (unsigned int i=0; i!=n; ++i) {

         std::string denompathname = "";  
         std::string pathname = hltConfig_.triggerName(i);  
         //parse pathname to guess object type
         int objectType =  getTriggerTypeParsePathName(pathname);

        std::string l1pathname = getL1ConditionModuleName(pathname);
  
        std::string filtername("dummy");
        float ptMin = 0.0;
        float ptMax = 100.0;

        if (objectType == trigger::TriggerPhoton) ptMax = 100.0;
        if (objectType == trigger::TriggerElectron) ptMax = 100.0;
        if (objectType == trigger::TriggerMuon) ptMax = 150.0;
        if (objectType == trigger::TriggerTau) ptMax = 100.0;
        if (objectType == trigger::TriggerJet) ptMax = 300.0;
        if (objectType == trigger::TriggerBJet) ptMax = 300.0;
        if (objectType == trigger::TriggerMET) ptMax = 300.0;
        if (objectType == trigger::TriggerTET) ptMax = 300.0;
        if (objectType == trigger::TriggerTrack) ptMax = 100.0;
    
        // keep track of all paths, except for FinalPath
        if (objectType != -1 && pathname.find("FinalPath") == std::string::npos){
  
          hltPaths_.push_back(PathInfo(denompathname, pathname, l1pathname, filtername, processname_, objectType, ptMin, ptMax));

          hltPathsDiagonal_.push_back(PathInfo(denompathname, pathname, l1pathname, filtername, processname_, objectType, ptMin, ptMax));
  
        }

      } // end for i

        
      // now loop over denom/num path pairs specified in cfg, 
      // recording the off-diagonal ones
      for (std::vector<std::pair<std::string, std::string> >::iterator custompathnamepair = custompathnamepairs_.begin(); custompathnamepair != custompathnamepairs_.end(); ++custompathnamepair) {
            
        std::string numpathname = custompathnamepair->first;  
        std::string denompathname = custompathnamepair->second;  
  
        if (numpathname != denompathname) {
  
          // check that denominator exists
          bool founddenominator = false;
          for (unsigned int k=0; k!=n; ++k) {

            std::string n_pathname = hltConfig_.triggerName(k);

            if (n_pathname.find(denompathname) != std::string::npos) {
              
              LogDebug("FourVectorHLTOnline") << "denompathname is selected to be = " << n_pathname << std::endl;;
              founddenominator = true;

              break;

            }
          }

          if (!founddenominator) {
  
            edm::LogInfo("FourVectorHLTOnline") << "denompathname not found, go to the next pair numearator-denominator" << std::endl;
            
            // go to the next pair
            continue;
  
          }

          // check that numerator exists
          bool foundnumerator = false;
          for (unsigned int j=0; j!=n; ++j) {

            std::string pathname = hltConfig_.triggerName(j);

            LogDebug("FourVectorHLTOnline") << "check if path " << pathname << " is numpathname = " << numpathname << std::endl;
            if (hltConfig_.triggerName(j).find(numpathname)!= std::string::npos) {
              
              LogDebug("FourVectorHLTOnline") << "pathname is selected to be = " << denompathname << std::endl;;
              foundnumerator = true;

            }
  
  
            if (!foundnumerator) {
    
              edm::LogInfo("FourVectorHLTOnline") << "pathname not found, ignoring " << pathname;
              continue;
  
            }
  
  
            std::string l1pathname = getL1ConditionModuleName(pathname);
            int objectType =  getTriggerTypeParsePathName(pathname);
  
          std::string filtername("dummy");
          float ptMin = 0.0;
          float ptMax = 100.0;
          if (objectType == trigger::TriggerPhoton) ptMax = 100.0;
          if (objectType == trigger::TriggerElectron) ptMax = 100.0;
          if (objectType == trigger::TriggerMuon) ptMax = 150.0;
          if (objectType == trigger::TriggerTau) ptMax = 100.0;
          if (objectType == trigger::TriggerJet) ptMax = 300.0;
          if (objectType == trigger::TriggerBJet) ptMax = 300.0;
          if (objectType == trigger::TriggerMET) ptMax = 300.0;
          if (objectType == trigger::TriggerTET) ptMax = 300.0;
          if (objectType == trigger::TriggerTrack) ptMax = 100.0;
  
          // monitor regardless of the objectType of the path
          if (objectType != 0)
            hltPaths_.push_back(PathInfo(denompathname, pathname, l1pathname, filtername, processname_, objectType, ptMin, ptMax));
      
        } // end for j, loop over paths

       }  // end if not same num and denominator 
  
      } // end for pair

    } // end else


    std::vector<std::string> muonPaths;
    std::vector<std::string> egammaPaths;
    std::vector<std::string> tauPaths;
    std::vector<std::string> jetmetPaths;
    std::vector<std::string> restPaths;
    std::vector<std::string> allPaths;
    // fill vectors of Muon, Egamma, JetMet, Rest, and Special paths
    for(PathInfoCollection::iterator v = hltPathsDiagonal_.begin(); v!= hltPathsDiagonal_.end(); ++v ) {

      std::string pathName = v->getPath();
      int objectType = v->getObjectType();

      std::vector<int> tempCount(5,0);

      fPathTempCountPair.push_back(make_pair(pathName,0));
      fPathBxTempCountPair.push_back(make_pair(pathName,tempCount));

      allPaths.push_back(pathName);

      switch (objectType) {
        case trigger::TriggerMuon :
          muonPaths.push_back(pathName);
          break;

        case trigger::TriggerElectron :
        case trigger::TriggerPhoton :
          egammaPaths.push_back(pathName);
          break;

        case trigger::TriggerTau :
          tauPaths.push_back(pathName);
          break;

        case trigger::TriggerJet :
        case trigger::TriggerMET :
          jetmetPaths.push_back(pathName);
          break;

        default:
          restPaths.push_back(pathName);
      }

    }

    fPathTempCountPair.push_back(make_pair("HLT_Any",0));

    fGroupName.push_back("All");
    fGroupName.push_back("Muon");
    fGroupName.push_back("Egamma");
    fGroupName.push_back("Tau");
    fGroupName.push_back("JetMet");
    fGroupName.push_back("Rest");
    fGroupName.push_back("Special");

    for(unsigned int g=0; g<fGroupName.size(); g++) {

      //fGroupTempCountPair.push_back(make_pair(fGroupName[g],0));
      //fGroupL1TempCountPair.push_back(make_pair(fGroupName[g],0));

    }
  
    dbe_->setCurrentFolder(pathsSummaryFolder_.c_str());



    fGroupNamePathsPair.push_back(make_pair("All",allPaths));

    fGroupNamePathsPair.push_back(make_pair("Muon",muonPaths));

    fGroupNamePathsPair.push_back(make_pair("Egamma",egammaPaths));

    fGroupNamePathsPair.push_back(make_pair("Tau",tauPaths));

    fGroupNamePathsPair.push_back(make_pair("JetMet",jetmetPaths));

    fGroupNamePathsPair.push_back(make_pair("Rest",restPaths));

    fGroupNamePathsPair.push_back(make_pair("Special",specialPaths_));

    std::vector<std::string> datasetNames =  hltConfig_.datasetNames() ;
    for (unsigned int i=0;i<datasetNames.size();i++) {

      std::vector<std::string> datasetPaths = hltConfig_.datasetContent(datasetNames[i]);
 
      fGroupNamePathsPair.push_back(make_pair(datasetNames[i],datasetPaths));
      //setupHltMatrix(datasetNames[i],datasetPaths);

    }

    /*
    setupHltMatrix("All", allPaths);
    setupHltMatrix("Muon", muonPaths);
    setupHltMatrix("Egamma", egammaPaths);
    setupHltMatrix("Tau", tauPaths);
    setupHltMatrix("JetMET", jetmetPaths);
    setupHltMatrix("Rest", restPaths);
    setupHltMatrix("Special", specialPaths_);
    */

    for (unsigned int g=0;g<fGroupNamePathsPair.size();g++) {

      fGroupTempCountPair.push_back(make_pair(fGroupNamePathsPair[g].first,0));
      fGroupL1TempCountPair.push_back(make_pair(fGroupNamePathsPair[g].first,0));
      //setupHltMatrix(fGroupNamePathsPair[g].first,fGroupNamePathsPair[g].second);

    }
    /*
    */

    setupHltLsPlots();

    setupHltBxPlots();


    for(PathInfoCollection::iterator v = hltPathsDiagonal_.begin(); v!= hltPathsDiagonal_.end(); ++v ) {

       // -------------------------
       //
       //  Filters for each path
       //
       // -------------------------
       
       // get all modules in this HLT path
       std::vector<std::string> moduleNames = hltConfig_.moduleLabels( v->getPath() ); 
       
       int numModule = 0;
       std::string moduleName, moduleType;
       unsigned int moduleIndex;
       
       //print module name
       std::vector<std::string>::const_iterator iDumpModName;
       for (iDumpModName = moduleNames.begin();iDumpModName != moduleNames.end();iDumpModName++) {

         moduleName = *iDumpModName;
         moduleType = hltConfig_.moduleType(moduleName);
         moduleIndex = hltConfig_.moduleIndex(v->getPath(), moduleName);

         LogTrace ("FourVectorHLTOnline") << "Module "      << numModule
             << " is called " << moduleName
             << " , type = "  << moduleType
             << " , index = " << moduleIndex
             << std::endl;

         numModule++;

         if((moduleType.find("Filter") != std::string::npos && moduleType.find("HLTTriggerTypeFilter") == std::string::npos ) || 
            (moduleType.find("Associator") != std::string::npos) || 
            (moduleType.find("HLTLevel1GTSeed") != std::string::npos) || 
            (moduleType.find("HLTGlobalSumsCaloMET") != std::string::npos) ||
            (moduleType.find("HLTPrescaler") != string::npos) ||
            (hltConfig_.moduleEDMType(moduleName).find("EDFilter") != string::npos))
          {

           //std::pair<std::string, int> filterIndexPair;
           //filterIndexPair.first   = moduleName;
           //filterIndexPair.second  = moduleIndex;
           //v->filtersAndIndices.push_back(filterIndexPair);
           v->filtersAndIndices.push_back(make_pair(moduleName,moduleIndex));

         }


       }//end for modulesName


       dbe_->setCurrentFolder(pathsSummaryFilterCountsFolder_.c_str()); 
      
       //int nbin_sub = 5;
       int nbin_sub = v->filtersAndIndices.size()+2;
    
       std::string pathName = v->getPath();
          
       vector<string> datasetNames =  hltConfig_.datasetNames();
      
       //Creates subfolders in FourVector->PathsSummary->FiltersCounts for each dataset,
       //and moves each path's filter histogram to the proper dataset folder
       for (unsigned int k=0;k<datasetNames.size();k++) { //Loop to cycle through datasets
         // std::cout << "Dataset " << datasetNames[k] << " has trigger paths " << std::endl;
        
         std::string datasetFolder = pathsSummaryFilterCountsFolder_ + datasetNames[k];
         vector<string> datasetPaths = hltConfig_.datasetContent(datasetNames[k]);
         
         for (unsigned int m=0;m<datasetPaths.size();m++){ //Loop to cycle through trigger paths
           // std::cout << "              " <<  datasetPaths[m] << std::endl;
         
           if(datasetPaths[m]==pathName){ //Moves path to proper dataset directory
             dbe_->setCurrentFolder(datasetFolder.c_str());
           }
         }
       }
             

       // count plots for subfilter
       MonitorElement* filters = dbe_->book1D("Filters_" + v->getPath(), 
                              "Filters_" + v->getPath(),
                              nbin_sub+1, -0.5, 0.5+(double)nbin_sub);
       
       for(unsigned int filt = 0; filt < v->filtersAndIndices.size(); filt++){

         filters->setBinLabel(filt+1, (v->filtersAndIndices[filt]).first);

       }

       // book Count vs LS
       dbe_->setCurrentFolder(pathsIndividualHLTPathsPerLSFolder_.c_str());
       MonitorElement* tempME = dbe_->book1D(v->getPath() + "_count_per_LS", 
                              v->getPath() + " count per LS",
                              nLS_, 0,nLS_);
       tempME->setAxisTitle("Luminosity Section");

       v->setFilterHistos(filters);

    } // end for paths

    // now set up all of the histos for each path-denom
    for(PathInfoCollection::iterator v = hltPaths_.begin(); v!= hltPaths_.end(); ++v ) {

      MonitorElement *NOn, *onEtOn, *onOneOverEtOn, *onEtavsonPhiOn=0;
      MonitorElement *NOff, *offEtOff, *offEtavsoffPhiOff=0;
      MonitorElement *NL1, *l1EtL1, *l1Etavsl1PhiL1=0;
      MonitorElement *NL1On, *l1EtL1On, *l1Etavsl1PhiL1On=0;
      MonitorElement *NL1Off, *offEtL1Off, *offEtavsoffPhiL1Off=0;
      MonitorElement *NOnOff, *offEtOnOff, *offEtavsoffPhiOnOff=0;
      MonitorElement *NL1OnUM, *l1EtL1OnUM, *l1Etavsl1PhiL1OnUM=0;
      MonitorElement *NL1OffUM, *offEtL1OffUM, *offEtavsoffPhiL1OffUM=0;
      MonitorElement *NOnOffUM, *offEtOnOffUM, *offEtavsoffPhiOnOffUM=0;
      MonitorElement *offDRL1Off, *offDROnOff, *l1DRL1On=0;
      

      std::string labelname("dummy");
      labelname = v->getPath() + "_wrt_" + v->getDenomPath();
      std::string histoname(labelname+"_NOn");
      std::string title(labelname+" N online");
      double histEtaMax = 2.5;

      if (v->getObjectType() == trigger::TriggerMuon || v->getObjectType() == trigger::TriggerL1Mu) {

        histEtaMax = muonEtaMax_;

      }
      else if (v->getObjectType() == trigger::TriggerElectron || v->getObjectType() == trigger::TriggerL1NoIsoEG || v->getObjectType() == trigger::TriggerL1IsoEG )
      {
        histEtaMax = electronEtaMax_;
      }
        else if (v->getObjectType() == trigger::TriggerTau || v->getObjectType() == trigger::TriggerL1TauJet )
      {
        histEtaMax = tauEtaMax_;
      }
      else if (v->getObjectType() == trigger::TriggerJet || v->getObjectType() == trigger::TriggerL1CenJet || v->getObjectType() == trigger::TriggerL1ForJet )
      {
        histEtaMax = jetEtaMax_; 
      }
        else if (v->getObjectType() == trigger::TriggerBJet)
      {
        histEtaMax = bjetEtaMax_;
      }
      else if (v->getObjectType() == trigger::TriggerMET || v->getObjectType() == trigger::TriggerL1ETM )
      {
        histEtaMax = metEtaMax_; 
      }
        else if (v->getObjectType() == trigger::TriggerPhoton)
      {
        histEtaMax = photonEtaMax_; 
      }
      else if (v->getObjectType() == trigger::TriggerTrack)
      {
        histEtaMax = trackEtaMax_; 
      }

      TString pathfolder = dirname_ + TString("/") + v->getPath();
      dbe_->setCurrentFolder(pathfolder.Data());

      NOn =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);


       histoname = labelname+"_NOff";
       title = labelname+" N Off";
       NOff =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       histoname = labelname+"_NL1";
       title = labelname+" N L1";
       NL1 =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       histoname = labelname+"_NL1On";
       title = labelname+" N L1On";
       NL1On =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       histoname = labelname+"_NL1Off";
       title = labelname+" N L1Off";
       NL1Off =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       histoname = labelname+"_NOnOff";
       title = labelname+" N OnOff";
       NOnOff =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       
       histoname = labelname+"_NL1OnUM";
       title = labelname+" N L1OnUM";
       NL1OnUM =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       histoname = labelname+"_NL1OffUM";
       title = labelname+" N L1OffUM";
       NL1OffUM =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       histoname = labelname+"_NOnOffUM";
       title = labelname+" N OnOffUM";
       NOnOffUM =  dbe->book1D(histoname.c_str(), title.c_str(),10, 0.5, 10.5);
       
       
       histoname = labelname+"_onEtOn";
       title = labelname+" onE_t online";
       onEtOn =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_onOneOverEtOn";
       title = labelname+" 1 / onE_t online";
       onOneOverEtOn =  dbe->book1D(histoname.c_str(), title.c_str(),nBinsOneOverEt_, 0, 1);
       onOneOverEtOn->setAxisTitle("HLT 1/Et [1/GeV]");
       
       histoname = labelname+"_offEtOff";
       title = labelname+" offE_t offline";
       offEtOff =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_l1EtL1";
       title = labelname+" l1E_t L1";
       l1EtL1 =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       int nBins2D = 10;
       
       
       histoname = labelname+"_onEtaonPhiOn";
       title = labelname+" on#eta vs on#phi online";
       onEtavsonPhiOn =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_offEtaoffPhiOff";
       title = labelname+" off#eta vs off#phi offline";
       offEtavsoffPhiOff =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_l1Etal1PhiL1";
       title = labelname+" l1#eta vs l1#phi L1";
       l1Etavsl1PhiL1 =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_l1EtL1On";
       title = labelname+" l1E_t L1+online";
       l1EtL1On =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_offEtL1Off";
       title = labelname+" offE_t L1+offline";
       offEtL1Off =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_offEtOnOff";
       title = labelname+" offE_t online+offline";
       offEtOnOff =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_l1Etal1PhiL1On";
       title = labelname+" l1#eta vs l1#phi L1+online";
       l1Etavsl1PhiL1On =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_offEtaoffPhiL1Off";
       title = labelname+" off#eta vs off#phi L1+offline";
       offEtavsoffPhiL1Off =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_offEtaoffPhiOnOff";
       title = labelname+" off#eta vs off#phi online+offline";
       offEtavsoffPhiOnOff =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_l1EtL1OnUM";
       title = labelname+" l1E_t L1+onlineUM";
       l1EtL1OnUM =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_offEtL1OffUM";
       title = labelname+" offE_t L1+offlineUM";
       offEtL1OffUM =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_offEtOnOffUM";
       title = labelname+" offE_t online+offlineUM";
       offEtOnOffUM =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, v->getPtMin(), v->getPtMax());
       
       histoname = labelname+"_l1Etal1PhiL1OnUM";
       title = labelname+" l1#eta vs l1#phi L1+onlineUM";
       l1Etavsl1PhiL1OnUM =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_offEtaoffPhiL1OffUM";
       title = labelname+" off#eta vs off#phi L1+offlineUM";
       offEtavsoffPhiL1OffUM =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       histoname = labelname+"_offEtaoffPhiOnOffUM";
       title = labelname+" off#eta vs off#phi online+offlineUM";
       offEtavsoffPhiOnOffUM =  dbe->book2D(histoname.c_str(), title.c_str(), nBins2D,-histEtaMax,histEtaMax, nBins2D,-TMath::Pi(), TMath::Pi());
       
       
       
       
       histoname = labelname+"_l1DRL1On";
       title = labelname+" l1DR L1+online";
       l1DRL1On =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, 0, 1.); 
       
       histoname = labelname+"_offDRL1Off";
       title = labelname+" offDR L1+offline";
       offDRL1Off =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, 0, 1.);
       
       histoname = labelname+"_offDROnOff";
       title = labelname+" offDR online+offline";
       offDROnOff =  dbe->book1D(histoname.c_str(), title.c_str(),nBins_, 0, 1.); 


       v->setHistos( NOn, onEtOn, onOneOverEtOn, onEtavsonPhiOn, NOff, offEtOff, offEtavsoffPhiOff, NL1, l1EtL1, l1Etavsl1PhiL1, NL1On, l1EtL1On, l1Etavsl1PhiL1On, NL1Off, offEtL1Off, offEtavsoffPhiL1Off, NOnOff, offEtOnOff, offEtavsoffPhiOnOff, NL1OnUM, l1EtL1OnUM, l1Etavsl1PhiL1OnUM, NL1OffUM, offEtL1OffUM, offEtavsoffPhiL1OffUM, NOnOffUM, offEtOnOffUM, offEtavsoffPhiOnOffUM, offDRL1Off, offDROnOff, l1DRL1On 
);


    }  // end for hltPath

    // HLT_Any
    // book Count vs LS
    dbe_->setCurrentFolder(pathsIndividualHLTPathsPerLSFolder_.c_str());
    MonitorElement* tempME = dbe_->book1D("HLT_Any_count_per_LS", 
                           "HLT_Any count per LS",
                           nLS_, 0,nLS_);
    tempME->setAxisTitle("Luminosity Section");

  } // end if(1) dummy

 return;

}
void FourVectorHLTOnline::cleanDRMatchSet ( mmset tempSet)

Clean DR Match Set.

Definition at line 1270 of file FourVectorHLTOnline.cc.

References i, and LogDebug.

Referenced by objMonData< T >::fillOnL1Match().

{

  LogDebug("FourVectorHLTOnline") << "cleanDRMatchSet(mmset& tempSet) " << "size of the set (before CLEANING) = " << tempSet.size() << " maps." << std::endl;

  if(tempSet.size() < 2) return;

  if(tempSet.size() > 10) {

    LogDebug("FourVectorHLTOnline") << "size of the set is too large.  It will be truncated to 10." << std::endl;
    mmset::iterator it = tempSet.begin();
    for (int i=0;i<10;i++) {    it++; }
    tempSet.erase( it, tempSet.end());
    LogDebug("FourVectorHLTOnline") << "size of the set is now = " << tempSet.size() << " maps." << std::endl;

  }
 
  bool cleanedOneMap = false;
 
  // cleaning needed if the set has at least two maps

  while(! cleanedOneMap && tempSet.size() > 1) {

    cleanedOneMap=false;

    //LogTrace("FourVectorHLTOnline") << "cleaning: size of the set  = " << tempSet.size() << " maps." << std::endl;

    int imap = 0;
    for ( mmset::iterator setIter_i = tempSet.begin( ); setIter_i != tempSet.end( ); setIter_i++ ) {

      fimmap tempMap_j = *setIter_i;

      //LogTrace("FourVectorHLTOnline") << " map " << imap << std::endl;
      //LogTrace("FourVectorHLTOnline") << " --------" << std::endl;

      for (fimmap::iterator it = tempMap_j.begin(); it != tempMap_j.end(); ++it) {

        //LogTrace("FourVectorHLTOnline") << " " <<   (*it).first << " :  " << (*it).second << std::endl;

      }

      imap++;

    }

    // loop i
    for ( mmset::iterator setIter_i = tempSet.begin( ); setIter_i != tempSet.end( ); setIter_i++ ) {
     
      fimmap tempMap_i = *setIter_i;
      fimmap::iterator it = tempMap_i.begin();
      int topValue = (*it).second;
      //LogTrace("FourVectorHLTOnline") << " topValue = " << topValue << std::endl;
  
      
      mmset::iterator tempIter_i = setIter_i;
  
      // from all the other maps, clean entries that have mapped value "topValue"
      // loop j
      for ( mmset::iterator setIter_j = ++tempIter_i; setIter_j != tempSet.end( ); setIter_j++ ) {
  
        fimmap tempMap_j = *setIter_j;
        //LogTrace("FourVectorHLTOnline") << "  size of the map  = " << tempMap_j.size() << std::endl;
  
        for (fimmap::iterator it = tempMap_j.begin(); it != tempMap_j.end(); ++it)
        {
  
          if(topValue == (*it).second) {
            
            //LogTrace("FourVectorHLTOnline") << "   Ridding map of a doubly-matched object." << std::endl;
            tempMap_j.erase(it);
            cleanedOneMap = true;
  
          }
  
        } //end for
  
        if(cleanedOneMap) {
          
          //remove the old map from the set
          tempSet.erase(setIter_j);
  
          // insert in the set the new map if it is not an empty map
          if(! tempMap_j.empty()) tempSet.insert(tempMap_j);
  
          break; // break from loop j
  
       } // end if
  
      }// end loop j 
  
      if(cleanedOneMap) break; // break from loop i

    } // end loop i

    if(cleanedOneMap) { 

      // continue cleaning (in while loop)
      // but reset flag first
      cleanedOneMap=false;
      continue; 

    }
    else {

      // finished cleaing (break from while loop)
      break; 

    }

  } // end while

  //LogTrace("FourVectorHLTOnline") << "cleaned: size of the set  = " << tempSet.size() << " maps." << std::endl;
  int jmap = 0;

  for ( mmset::iterator setIter_i = tempSet.begin( ); setIter_i != tempSet.end( ); setIter_i++ ) 
  {

    fimmap tempMap_j = *setIter_i;

    //LogTrace("FourVectorHLTOnline") << " map " << jmap << std::endl;
    //LogTrace("FourVectorHLTOnline") << " --------" << std::endl;

    for (fimmap::iterator it = tempMap_j.begin(); it != tempMap_j.end(); ++it) {

        //LogTrace("FourVectorHLTOnline") << " " <<   (*it).first << " :  " << (*it).second << std::endl;
      
    }

    jmap++;

  } // end for

  return;

}
void FourVectorHLTOnline::countHLTGroupBXHitsEndLumiBlock ( const int &  lumi) [private]

Definition at line 1703 of file FourVectorHLTOnline.cc.

References plotTTrigFromHistos::binNumber(), dbe_, fGroupName, fGroupNamePathsPair, first, fPathBxTempCountPair, DQMStore::get(), MonitorElement::getName(), MonitorElement::getTH2F(), i, j, gen::k, LogDebug, LogTrace, ME_HLT_BX_, Nbx_, timingPdfMaker::pathname, pathsSummaryHLTPathsPerBXFolder_, referenceBX_, edm::second(), findQualityFiles::size, and AlCaHLTBitMon_QueryRunRegistry::string.

{

 LogTrace("FourVectorHLTOnline") << " countHLTGroupBXHitsEndLumiBlock() lumiSection number " << lumi << std::endl;

   TH2F * hist_2d_bx = ME_HLT_BX_->getTH2F();

   for (std::vector<std::pair<std::string, std::vector<int> > >::iterator ip = fPathBxTempCountPair.begin(); ip != fPathBxTempCountPair.end(); ++ip) {
  
    // get the path and its previous count
    std::string pathname = ip->first;  
    std::vector<int> prevCount = ip->second;  

    // vector of 5 zeros
    std::vector<int> currCount (5,0);
    std::vector<int> diffCount (5,0);
    
    // get the current count of path up to now
    int pathBin = hist_2d_bx->GetYaxis()->FindBin(pathname.c_str());      

    if(pathBin > hist_2d_bx->GetNbinsY()) {
      
      LogTrace("FourVectorHLTOnline") << " Cannot find the bin for path " << pathname << std::endl;
      continue;

    }

    for (unsigned int j =0;j<currCount.size();j++) { 

      int bxOffset = j-2;
      int bunch = referenceBX_+bxOffset;
      if(bunch < 1) bunch += Nbx_ ;
      int bxBin = bunch +1; // add one to get the right bin

      
      currCount[j] = int(hist_2d_bx->GetBinContent(bxBin, pathBin));  // add one to get the right bin

      LogTrace("FourVectorHLTOnline") << "currCount = " << currCount[j] << std::endl;

      // count due to prev lumi sec is a difference bw current and previous
      diffCount[j] = currCount[j] - prevCount[j];

      LogTrace("FourVectorHLTOnline") << " lumi = " << lumi << "  path " << pathname << "bxOffset = " << bxOffset << "  count = " << diffCount[j] <<  std::endl;

      // set the counter in the pair to current count
      ip->second = currCount;  

    } // end for bx j

   // fill the 2D Group paths'  BX count per LS
   LogTrace("FourVectorHLTOnline")  << "Find " << pathname << std::endl;
   for(unsigned int i=0; i<fGroupName.size(); i++){

    bool isMember = false;
    //check if the path is in this group
    for (unsigned int j=0;j<fGroupNamePathsPair.size();j++) { 

      LogTrace("FourVectorHLTOnline")  << " ---- Group " << fGroupNamePathsPair[j].first << std::endl;
      if(fGroupNamePathsPair[j].first != fGroupName[i]) continue;

      for (unsigned int k = 0; k<(fGroupNamePathsPair[j].second).size();k++) {

        LogTrace("FourVectorHLTOnline")  << " comparing to " <<  fGroupNamePathsPair[j].second[k] << std::endl; 

        if(fGroupNamePathsPair[j].second[k] == pathname) {

          isMember = true;
          break;

        }

      } // end for k
    } // end for j


    if(!isMember) {
      
      LogTrace("FourVectorHLTOnline")  << "Could not find a group to which the path belongs, path = " << pathname << "    group = " << fGroupName[i] << std::endl;
      continue;

    }

    std::string fullPathToME = pathsSummaryHLTPathsPerBXFolder_ + "HLT_"+fGroupName[i] + "_BX_LS";
    MonitorElement* ME_2d = dbe_->get(fullPathToME);

    if ( ME_2d) {

      TH2F* hist_All = ME_2d->getTH2F();

      for (unsigned int j = 0; j<diffCount.size();j++) {

        // find the bin
        int binNumber = j+1; // add one to get right bin

        // update  the bin content  (must do that since events don't ncessarily come in the order
        int currentLumiCount = int(hist_All->GetBinContent(lumi+1,binNumber));
        int updatedLumiCount = currentLumiCount + diffCount[j];
        hist_All->SetBinContent(lumi+1,binNumber,updatedLumiCount);
      } // end for bx j
    
    }
    else {

      LogDebug("FourVectorHLTOnline") << " cannot find ME_2d" << ME_2d->getName() <<  std::endl;

    }
    

   } // end for group i

  } // end for ip

}
void FourVectorHLTOnline::countHLTGroupHitsEndLumiBlock ( const int &  lumi) [private]

Definition at line 1900 of file FourVectorHLTOnline.cc.

References dbe_, fGroupNamePathsPair, fGroupTempCountPair, DQMStore::get(), MonitorElement::getTH1(), MonitorElement::getTH1F(), i, LogDebug, LogTrace, timingPdfMaker::pathname, pathsSummaryHLTPathsPerLSFolder_, and AlCaHLTBitMon_QueryRunRegistry::string.

{

 LogTrace("FourVectorHLTOnline") << " countHLTGroupHitsEndLumiBlock() lumiSection number " << lumi << std::endl;
 //for(unsigned int i=0; i<fGroupName.size(); i++){
 for(unsigned int i=0; i<fGroupNamePathsPair.size(); i++){

    // get the count of path up to now
   //string fullPathToME = "HLT/FourVector/PathsSummary/HLT_" + fGroupName[i] + "_Pass_Any";
   std::string fullPathToME = "HLT/FourVector/PathsSummary/HLT_" + fGroupNamePathsPair[i].first + "_Pass_Any";
   MonitorElement* ME_1d = dbe_->get(fullPathToME);

   if(! ME_1d) {

     LogTrace("FourVectorHLTOnline") << " could not find 1d matrix " << fullPathToME << std::endl;

     continue;

   }

   LogTrace("FourVectorHLTOnline") << " Looking in histogram "  << fullPathToME << std::endl;

   TH1F * hist_1d = ME_1d->getTH1F();

   for (std::vector<std::pair<std::string, int> >::iterator ip = fGroupTempCountPair.begin(); ip != fGroupTempCountPair.end(); ++ip) {
  
    // get the path and its previous count
    std::string pathname = ip->first;  
    int prevCount = ip->second;  

    std::string binLabel = "HLT_"+pathname+"_Any";
    
    LogTrace("FourVectorHLTOnline") << " Looking for binLabel = " << binLabel <<  std::endl;
    // get the current count of path up to now
    int pathBin = hist_1d->GetXaxis()->FindBin(binLabel.c_str());      

    LogTrace("FourVectorHLTOnline") << " pathBin = " << pathBin <<  "  out of histogram total number of bins " << hist_1d->GetNbinsX() <<  std::endl;
    if(pathBin == -1) {
      
      LogTrace("FourVectorHLTOnline") << " Cannot find the bin for path " << pathname << std::endl;
      continue;

    }

    int currCount = int(hist_1d->GetBinContent(pathBin));

    // count due to prev lumi sec is a difference bw current and previous
    int diffCount = currCount - prevCount;

    LogTrace("FourVectorHLTOnline") << " lumi = " << lumi << "  path " << pathname << "  count " << diffCount <<  std::endl;

    // set the counter in the pair to current count
    ip->second = currCount;  


    // fill the 1D individual path count per LS
    std::string fullPathToME_count = pathsSummaryHLTPathsPerLSFolder_ +"HLT_" + pathname + "_Total_LS";
    MonitorElement* ME_1d = dbe_->get(fullPathToME_count);
    if ( ME_1d) { 

      // update  the bin content  (must do that since events don't ncessarily come in the order
      int currentLumiCount = int(ME_1d->getTH1()->GetBinContent(lumi+1));
      int updatedLumiCount = currentLumiCount + diffCount;
      ME_1d->getTH1()->SetBinContent(lumi+1,updatedLumiCount);

    }
    else {

      LogDebug("FourVectorHLTOnline") << " cannot find ME " << fullPathToME_count  <<  std::endl;

    }

   } // end for ip

 } // end for i

}
void FourVectorHLTOnline::countHLTGroupL1HitsEndLumiBlock ( const int &  lumi) [private]

Definition at line 1819 of file FourVectorHLTOnline.cc.

References dbe_, fGroupL1TempCountPair, fGroupNamePathsPair, DQMStore::get(), MonitorElement::getTH1(), MonitorElement::getTH1F(), i, LogDebug, LogTrace, timingPdfMaker::pathname, pathsSummaryHLTPathsPerLSFolder_, and AlCaHLTBitMon_QueryRunRegistry::string.

{

 LogTrace("FourVectorHLTOnline") << " countHLTGroupL1HitsEndLumiBlock() lumiSection number " << lumi << std::endl;

 //for(unsigned int i=0; i<fGroupName.size(); i++){
 for(unsigned int i=0; i<fGroupNamePathsPair.size(); i++){

   // get the count of path up to now
   std::string fullPathToME = "HLT/FourVector/PathsSummary/HLT_" + fGroupNamePathsPair[i].first+ "_Pass_Any";
   MonitorElement* ME_1d = dbe_->get(fullPathToME);

   if(! ME_1d) {

     LogTrace("FourVectorHLTOnline") << " could not find 1d matrix " << fullPathToME << std::endl;

     continue;

   }

   LogTrace("FourVectorHLTOnline") << " Looking in histogram "  << fullPathToME << std::endl;

   TH1F * hist_1d = ME_1d->getTH1F();

   for (std::vector<std::pair<std::string, int> >::iterator ip = fGroupL1TempCountPair.begin(); ip != fGroupL1TempCountPair.end(); ++ip) {
  
    // get the path and its previous count
    std::string pathname = ip->first;  
    int prevCount = ip->second;  

    std::string binLabel = "HLT_"+pathname+"_L1_Any";
    
    LogTrace("FourVectorHLTOnline") << " Looking for binLabel = " << binLabel <<  std::endl;
    // get the current count of path up to now
    int pathBin = hist_1d->GetXaxis()->FindBin(binLabel.c_str());      

    LogTrace("FourVectorHLTOnline") << " pathBin = " << pathBin <<  "  out of histogram total number of bins " << hist_1d->GetNbinsX() <<  std::endl;
    if(pathBin == -1) {
      
      LogTrace("FourVectorHLTOnline") << " Cannot find the bin for path " << pathname << std::endl;
      continue;

    }

    int currCount = int(hist_1d->GetBinContent(pathBin));

    // count due to prev lumi sec is a difference bw current and previous
    int diffCount = currCount - prevCount;

    LogTrace("FourVectorHLTOnline") << " lumi = " << lumi << "  path " << pathname << "  count " << diffCount <<  std::endl;

    // set the counter in the pair to current count
    ip->second = currCount;  


    // fill the 1D individual path count per LS
    std::string fullPathToME_count = pathsSummaryHLTPathsPerLSFolder_ +"HLT_" + pathname + "_L1_Total_LS";
    MonitorElement* ME_1d = dbe_->get(fullPathToME_count);
    if ( ME_1d) { 

      // update  the bin content  (must do that since events don't ncessarily come in the order
      int currentLumiCount = int(ME_1d->getTH1()->GetBinContent(lumi+1));
      int updatedLumiCount = currentLumiCount + diffCount;
      ME_1d->getTH1()->SetBinContent(lumi+1,updatedLumiCount);

    }
    else {

      LogDebug("FourVectorHLTOnline") << " cannot find ME " << fullPathToME_count  <<  std::endl;

    }

   } // end for ip

 } // end for i

}
void FourVectorHLTOnline::countHLTPathHitsEndLumiBlock ( const int &  lumi) [private]

Definition at line 1981 of file FourVectorHLTOnline.cc.

References dbe_, fPathTempCountPair, DQMStore::get(), MonitorElement::getTH1(), MonitorElement::getTH2F(), i, LogDebug, LogTrace, ME_HLTAll_LS_, timingPdfMaker::pathname, pathsIndividualHLTPathsPerLSFolder_, AlCaHLTBitMon_QueryRunRegistry::string, and v_ME_HLTAll_LS_.

{

   LogTrace("FourVectorHLTOnline") << " countHLTPathHitsEndLumiBlock() lumiSection number " << lumi << std::endl;
    // get the count of path up to now
   std::string fullPathToME = "HLT/FourVector/PathsSummary/HLT_All_PassPass";
   MonitorElement* ME_2d = dbe_->get(fullPathToME);

   if(! ME_2d) {

     LogTrace("FourVectorHLTOnline") << " could not fine 2d matrix " << fullPathToME << std::endl;

     return;

   }

   TH2F * hist_2d = ME_2d->getTH2F();

   for (std::vector<std::pair<std::string, int> >::iterator ip = fPathTempCountPair.begin(); ip != fPathTempCountPair.end(); ++ip) {
  
    // get the path and its previous count
    std::string pathname = ip->first;  
    int prevCount = ip->second;  
    
    // get the current count of path up to now
    int pathBin = hist_2d->GetXaxis()->FindBin(pathname.c_str());      

    if(pathBin > hist_2d->GetNbinsX()) {
      
      LogTrace("FourVectorHLTOnline") << " Cannot find the bin for path " << pathname << std::endl;
      continue;

    }

    int currCount = int(hist_2d->GetBinContent(pathBin, pathBin));

    // count due to prev lumi sec is a difference bw current and previous
    int diffCount = currCount - prevCount;

    LogTrace("FourVectorHLTOnline") << " lumi = " << lumi << "  path " << pathname << "  count " << diffCount <<  std::endl;

    // set the counter in the pair to current count
    ip->second = currCount;  

    // fill the 2D All paths' count per LS
    if ( ME_HLTAll_LS_) {

      TH2F* hist_All = ME_HLTAll_LS_->getTH2F();

      // find the bin
      int pathBinNumber = hist_All->GetYaxis()->FindBin(pathname.c_str());
      
      // update  the bin content  (must do that since events don't ncessarily come in the order
      int currentLumiCount = int(hist_All->GetBinContent(lumi+1,pathBinNumber));
      int updatedLumiCount = currentLumiCount + diffCount;
      hist_All->SetBinContent(lumi+1,pathBinNumber,updatedLumiCount);
    
    }
    else {

      LogDebug("FourVectorHLTOnline") << " cannot find ME_HLTAll_LS_" <<  std::endl;

    }
    
    for (unsigned int i=0 ; i< v_ME_HLTAll_LS_.size(); i++) {  
      
      MonitorElement* tempME = v_ME_HLTAll_LS_[i];

      if ( tempME ) {
  
        TH2F* hist_All = tempME->getTH2F();
  
        // find the bin
        int pathBinNumber = hist_All->GetYaxis()->FindBin(pathname.c_str());
        // update  the bin content  (must do that since events don't ncessarily come in the order
        int currentLumiCount = int(hist_All->GetBinContent(lumi+1,pathBinNumber));
        int updatedLumiCount = currentLumiCount + diffCount;
        hist_All->SetBinContent(lumi+1,pathBinNumber,updatedLumiCount);
      
      }
      else {
  
        LogDebug("FourVectorHLTOnline") << " cannot find tempME " <<  std::endl;
  
      }

    }


    // fill the 1D individual path count per LS
    std::string fullPathToME_count = pathsIndividualHLTPathsPerLSFolder_ + pathname + "_count_per_LS";
    MonitorElement* ME_1d = dbe_->get(fullPathToME_count);
    if ( ME_1d) { 

      // update  the bin content  (must do that since events don't ncessarily come in the order
      int currentLumiCount = int(ME_1d->getTH1()->GetBinContent(lumi+1));
      int updatedLumiCount = currentLumiCount + diffCount;
      ME_1d->getTH1()->SetBinContent(lumi+1,updatedLumiCount);

    }
    else {

      LogDebug("FourVectorHLTOnline") << " cannot find ME " << fullPathToME_count  <<  std::endl;

    }

  } // end for ip

}
void FourVectorHLTOnline::endJob ( void  ) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 644 of file FourVectorHLTOnline.cc.

References nev_.

{
   LogInfo("FourVectorHLTOnline") << "analyzed " << nev_ << " events";
   return;
}
void FourVectorHLTOnline::endLuminosityBlock ( const edm::LuminosityBlock lumiSeg,
const edm::EventSetup c 
) [private, virtual]

Reimplemented from edm::EDAnalyzer.

Definition at line 1689 of file FourVectorHLTOnline.cc.

References edm::LuminosityBlockBase::id(), LogTrace, fjr2json::lumi, and edm::LuminosityBlockID::luminosityBlock().

{

   int lumi = int(lumiSeg.id().luminosityBlock());
   LogTrace("FourVectorHLTOnline") << " end lumiSection number " << lumi << std::endl;

   //countHLTPathHitsEndLumiBlock(lumi);
   //countHLTGroupHitsEndLumiBlock(lumi);
   //countHLTGroupL1HitsEndLumiBlock(lumi);

   //countHLTGroupBXHitsEndLumiBlock(lumi);

}
void FourVectorHLTOnline::endRun ( const edm::Run run,
const edm::EventSetup c 
) [private, virtual]

EndRun.

Reimplemented from edm::EDAnalyzer.

Definition at line 1262 of file FourVectorHLTOnline.cc.

References edm::RunBase::id(), and LogDebug.

{

  LogDebug("FourVectorHLTOnline") << "endRun, run " << run.id();

}
void FourVectorHLTOnline::fillHltMatrix ( const edm::TriggerNames triggerNames) [private]

Definition at line 1483 of file FourVectorHLTOnline.cc.

References dbe_, fGroupNamePathsPair, DQMStore::get(), MonitorElement::getTH1F(), MonitorElement::getTH2F(), hasL1Passed(), i, j, LogTrace, AlCaHLTBitMon_QueryRunRegistry::string, edm::TriggerNames::triggerIndex(), and triggerResults_.

                                                                            {

 std::string fullPathToME; 

 //for (unsigned int mi=0;mi<fGroupName.size();mi++) {
  for (unsigned int mi=0;mi<fGroupNamePathsPair.size();mi++) {


  fullPathToME = "HLT/FourVector/PathsSummary/HLT_"+fGroupNamePathsPair[mi].first+"_PassPass";
  MonitorElement* ME_2d = dbe_->get(fullPathToME);
  fullPathToME = "HLT/FourVector/PathsSummary/HLT_"+fGroupNamePathsPair[mi].first+"_Pass_Any";
  MonitorElement* ME_1d = dbe_->get(fullPathToME);
  if(!ME_2d || !ME_1d) {  

    LogTrace("FourVectorHLTOnline") << " ME not valid although I gave full path" << std::endl;
    continue;

  }

  TH2F * hist_2d = ME_2d->getTH2F();
  TH1F * hist_1d = ME_1d->getTH1F();

  // Fill HLTPassed Matrix bin (i,j) = (Any,Any)
  // --------------------------------------------------------
  int anyBinNumber = hist_2d->GetXaxis()->FindBin("HLT_Any");      
  // any triger accepted
  if(triggerResults_->accept()){

    hist_2d->Fill(anyBinNumber-1,anyBinNumber-1);//binNumber1 = 0 = first filter
    hist_1d->Fill(anyBinNumber-1);//binNumber1 = 0 = first filter

  }

  bool groupPassed = false;
  bool groupL1Passed = false;

  // Main loop over paths
  // --------------------

  for (int i=1; i< hist_2d->GetNbinsX();i++) { 

  std::string hltpathname =  hist_2d->GetXaxis()->GetBinLabel(i);


    // check if this is hlt path name
    unsigned int pathByIndex = triggerNames.triggerIndex(hltpathname);
    if(pathByIndex >= triggerResults_->size() ) continue;

    // check if its L1 passed
    if(hasL1Passed(hltpathname,triggerNames)) groupL1Passed = true;

    // Fill HLTPassed Matrix and HLTPassFail Matrix
    // --------------------------------------------------------

    if(triggerResults_->accept(pathByIndex)){

      groupPassed = true;
      //groupL1Passed = true;

      if(groupPassed && !groupL1Passed) 
  
      hist_2d->Fill(i-1,anyBinNumber-1);//binNumber1 = 0 = first filter
      hist_2d->Fill(anyBinNumber-1,i-1);//binNumber1 = 0 = first filter

      hist_1d->Fill(i-1);//binNumber1 = 0 = first filter

      for (int j=1; j< hist_2d->GetNbinsY();j++) {
  
        unsigned int crosspathByIndex = triggerNames.triggerIndex(hist_2d->GetXaxis()->GetBinLabel(j));
        if(crosspathByIndex >= triggerResults_->size() ) continue;
  
        if(triggerResults_->accept(crosspathByIndex)){
  
          hist_2d->Fill(i-1,j-1);//binNumber1 = 0 = first filter
  
        } // end if j path passed
  
      } // end for j 
  
    } // end if i passed
    

  } // end for i

  std::string groupBinLabel = "HLT_"+fGroupNamePathsPair[mi].first+"_Any";
  int groupBinNumber = hist_2d->GetXaxis()->FindBin(groupBinLabel.c_str());      
  if(groupPassed) hist_1d->Fill(groupBinNumber-1);//binNumber1 = 0 = first filter

  std::string groupL1BinLabel = "HLT_"+fGroupNamePathsPair[mi].first+"_L1_Any";
  int groupL1BinNumber = hist_2d->GetXaxis()->FindBin(groupL1BinLabel.c_str());      

  if(groupL1Passed) hist_1d->Fill(groupL1BinNumber-1);//binNumber1 = 0 = first filter
 } // end for mi

}
const std::string FourVectorHLTOnline::getL1ConditionModuleName ( const std::string &  pathname) [private]

Definition at line 2124 of file FourVectorHLTOnline.cc.

References hltConfig_, HLTConfigProvider::moduleLabels(), HLTConfigProvider::moduleType(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by beginRun(), and hasL1Passed().

{

  // find L1 condition for numpath with numpath objecttype 
  // find PSet for L1 global seed for numpath, 
  // list module labels for numpath
  std::string l1pathname = "dummy";

  std::vector<std::string> numpathmodules = hltConfig_.moduleLabels(pathname);

  for(std::vector<std::string>::iterator numpathmodule = numpathmodules.begin();
  numpathmodule!= numpathmodules.end(); ++numpathmodule ) {

    if (hltConfig_.moduleType(*numpathmodule) == "HLTLevel1GTSeed") {

     l1pathname = *numpathmodule;
     break; 

    }

  } // end for

  return l1pathname;

}
int FourVectorHLTOnline::getTriggerTypeParsePathName ( const std::string &  pathname) [private]

Definition at line 2095 of file FourVectorHLTOnline.cc.

References trigger::TriggerBJet, trigger::TriggerElectron, trigger::TriggerJet, trigger::TriggerMET, trigger::TriggerMuon, trigger::TriggerPhoton, trigger::TriggerTau, trigger::TriggerTET, and trigger::TriggerTrack.

Referenced by beginRun().

{

   int objectType = 0;

         if (pathname.find("MET") != std::string::npos) 
           objectType = trigger::TriggerMET;    
         if (pathname.find("SumET") != std::string::npos) 
           objectType = trigger::TriggerTET;    
         if (pathname.find("HT") != std::string::npos) 
           objectType = trigger::TriggerTET;    
         if (pathname.find("Jet") != std::string::npos) 
           objectType = trigger::TriggerJet;    
         if (pathname.find("Mu") != std::string::npos)
           objectType = trigger::TriggerMuon;    
         if (pathname.find("Ele") != std::string::npos) 
           objectType = trigger::TriggerElectron;    
         if (pathname.find("Photon") != std::string::npos) 
           objectType = trigger::TriggerPhoton;    
         if (pathname.find("Tau") != std::string::npos) 
           objectType = trigger::TriggerTau;    
         if (pathname.find("IsoTrack") != std::string::npos) 
           objectType = trigger::TriggerTrack;    
         if (pathname.find("BTag") != std::string::npos) 
           objectType = trigger::TriggerBJet;    

   return objectType;
}
bool FourVectorHLTOnline::hasHLTPassed ( const std::string &  pathname,
const edm::TriggerNames triggerNames 
) [private]

Definition at line 2173 of file FourVectorHLTOnline.cc.

References edm::TriggerNames::triggerIndex(), and triggerResults_.

Referenced by analyze().

{
  
  bool rc = false;

  unsigned int pathByIndex = triggerNames.triggerIndex(pathname);
  if(pathByIndex >= triggerResults_->size() ) return rc; // path is not in the menu

  rc  = triggerResults_->accept(pathByIndex);

  return rc;

}
bool FourVectorHLTOnline::hasL1Passed ( const std::string &  pathname,
const edm::TriggerNames triggerNames 
) [private]

Definition at line 2151 of file FourVectorHLTOnline.cc.

References getL1ConditionModuleName(), hltConfig_, HLTConfigProvider::moduleIndex(), AlCaHLTBitMon_QueryRunRegistry::string, edm::TriggerNames::triggerIndex(), and triggerResults_.

Referenced by fillHltMatrix().

{
  
  bool rc = false;

  std::string l1ModuleName = getL1ConditionModuleName(pathname);
  int l1ModuleIndex = hltConfig_.moduleIndex(pathname, l1ModuleName);

  unsigned int pathByIndex = triggerNames.triggerIndex(pathname);
  if(pathByIndex >= triggerResults_->size() ) return rc; // path is not in the menu

  // get index of the last module that issued the decision
  int lastModule = triggerResults_->index(pathByIndex);

  // if L1 passed, then it must not be the module that 
  // issued the last decision
  rc = (l1ModuleIndex < lastModule);

  return rc;

}
void FourVectorHLTOnline::setupHltBxPlots ( ) [private]

Definition at line 1579 of file FourVectorHLTOnline.cc.

References DQMStore::book2D(), dbe_, MonitorElement::getTH2F(), hltPathsDiagonal_, i, ME_HLT_BX_, ME_HLT_CUSTOM_BX_, Nbx_, pathsSummaryFolder_, MonitorElement::setAxisTitle(), and DQMStore::setCurrentFolder().

Referenced by beginRun().

{

  //pathsSummaryFolder_ = TString("HLT/FourVector/PathsSummary/");
  //dbe_->setCurrentFolder(pathsSummaryFolder_.c_str());
  dbe_->setCurrentFolder(pathsSummaryFolder_);

  // setup HLT bx plot
  unsigned int npaths = hltPathsDiagonal_.size();

  ME_HLT_BX_ = dbe_->book2D("HLT_bx",
                         "HLT counts vs Event bx",
                         Nbx_+1, -0.5, Nbx_+1-0.5, npaths, -0.5, npaths-0.5);
  ME_HLT_CUSTOM_BX_ = dbe_->book2D("HLT_Custom_bx",
                         "HLT counts vs Event bx",
                         Nbx_+1, -0.5, Nbx_+1-0.5, npaths, -0.5, npaths-0.5);
  ME_HLT_BX_->setAxisTitle("Bunch Crossing");
  ME_HLT_CUSTOM_BX_->setAxisTitle("Bunch Crossing");


  // Set up bin labels on Y axis continuing to cover all npaths
  for(unsigned int i = 0; i < npaths; i++){

    ME_HLT_BX_->getTH2F()->GetYaxis()->SetBinLabel(i+1, (hltPathsDiagonal_[i]).getPath().c_str());
    ME_HLT_CUSTOM_BX_->getTH2F()->GetYaxis()->SetBinLabel(i+1, (hltPathsDiagonal_[i]).getPath().c_str());

  }


}
void FourVectorHLTOnline::setupHltLsPlots ( ) [private]

Definition at line 1610 of file FourVectorHLTOnline.cc.

References newFWLiteAna::bin, DQMStore::book2D(), dbe_, MonitorElement::getTH2F(), hltPathsDiagonal_, i, ME_HLTAll_LS_, mergeVDriftHistosByStation::name, nLS_, pathsSummaryHLTPathsPerLSFolder_, MonitorElement::setAxisTitle(), MonitorElement::setBinLabel(), DQMStore::setCurrentFolder(), indexGen::title, and v_ME_HLTAll_LS_.

Referenced by beginRun().

{
 
  unsigned int npaths = hltPathsDiagonal_.size();

  //pathsSummaryHLTPathsPerLSFolder_ = TString("HLT/FourVector/PathsSummary/HLT LS/");
  //dbe_->setCurrentFolder(pathsSummaryHLTPathsPerLSFolder_.c_str());
  dbe_->setCurrentFolder(pathsSummaryHLTPathsPerLSFolder_);

  ME_HLTAll_LS_  = dbe_->book2D("All_count_LS",
                    "All paths per LS ",
                         nLS_, 0, nLS_, npaths+1, -0.5, npaths+1-0.5);
  ME_HLTAll_LS_->setAxisTitle("Luminosity Section");

  // Set up bin labels on Y axis continuing to cover all npaths
  for(unsigned int i = 0; i < npaths; i++){

    ME_HLTAll_LS_->getTH2F()->GetYaxis()->SetBinLabel(i+1, (hltPathsDiagonal_[i]).getPath().c_str());

  }

  unsigned int i = npaths;
  ME_HLTAll_LS_->getTH2F()->GetYaxis()->SetBinLabel(i+1, "HLT_Any");

  int nBinsPerLSHisto = 20;
  int nLSHistos = npaths/nBinsPerLSHisto;
  for (int nh=0;nh<nLSHistos+1;nh++) {

    char name[200];
    char title[200];

    sprintf(name, "Group_%d_paths_count_LS",nLSHistos-nh);
    sprintf(title, "Group %d,  paths count per LS",nLSHistos-nh);

    MonitorElement* tempME  = dbe_->book2D(name,title,
                    nLS_, 0, nLS_, nBinsPerLSHisto+3, -0.5, nBinsPerLSHisto+3-0.5);

    tempME->setAxisTitle("LS");

    // Set up bin labels on Y axis continuing to cover all npaths
    for(int i = nh*nBinsPerLSHisto; i < (nh+1)*nBinsPerLSHisto; i++){

      if (i == int(npaths)) break;

      int bin;
      if(nh == 0){

       bin = i;

      }
      else {

       bin = i % nBinsPerLSHisto;

      }

      tempME->setBinLabel(bin+1, hltPathsDiagonal_[i].getPath().c_str(), 2);

    }

    tempME->setBinLabel(nBinsPerLSHisto+3, "HLT_Any", 2);
    tempME->setBinLabel(nBinsPerLSHisto+2, "HLT_PhysicsDeclared", 2);

    v_ME_HLTAll_LS_.push_back(tempME);

  }


}
void FourVectorHLTOnline::setupHltMatrix ( std::string  label,
std::vector< std::string >  paths 
) [private]

add this path to the vector of 2D LS paths

Definition at line 1406 of file FourVectorHLTOnline.cc.

References DQMStore::book1D(), DQMStore::book2D(), dbe_, MonitorElement::getTH1F(), MonitorElement::getTH2F(), i, nLS_, pathsSummaryFolder_, pathsSummaryHLTCorrelationsFolder_, pathsSummaryHLTPathsPerBXFolder_, pathsSummaryHLTPathsPerLSFolder_, MonitorElement::setAxisTitle(), DQMStore::setCurrentFolder(), AlCaHLTBitMon_QueryRunRegistry::string, and v_ME_HLTAll_LS_.

                                                                                    {

    //string groupLabelAny = "HLT_"+label+"_Any";
    //paths.push_back(groupLabelAny.c_str());
    paths.push_back("HLT_"+label+"_L1_Any");
    paths.push_back("HLT_"+label+"_Any");
    paths.push_back("HLT_Any");

    std::string h_name; 
    std::string h_title; 

    dbe_->setCurrentFolder(pathsSummaryFolder_.c_str());

    h_name= "HLT_"+label+"_PassPass";
    h_title = "HLT_"+label+"_PassPass (x=Pass, y=Pass)";
    MonitorElement* ME = dbe_->book2D(h_name.c_str(), h_title.c_str(),
                           paths.size(), -0.5, paths.size()-0.5, paths.size(), -0.5, paths.size()-0.5);

    h_name= "HLT_"+label+"_Pass_Any";
    h_title = "HLT_"+label+"_Pass (x=Pass, Any=Pass) normalized to HLT_Any Pass";
    MonitorElement* ME_Any = dbe_->book1D(h_name.c_str(), h_title.c_str(),
                           paths.size(), -0.5, paths.size()-0.5);

    dbe_->setCurrentFolder(pathsSummaryHLTCorrelationsFolder_.c_str());
    h_name= "HLT_"+label+"_PassPass_Normalized";
    h_title = "HLT_"+label+"_PassPass (x=Pass, y=Pass) normalized to xBin=Pass";
    MonitorElement* ME_Normalized = dbe_->book2D(h_name.c_str(), h_title.c_str(),
                           paths.size(), -0.5, paths.size()-0.5, paths.size(), -0.5, paths.size()-0.5);
    h_name= "HLT_"+label+"_Pass_Normalized_Any";
    h_title = "HLT_"+label+"_Pass (x=Pass, Any=Pass) normalized to HLT_Any Pass";
    MonitorElement* ME_Normalized_Any = dbe_->book1D(h_name.c_str(), h_title.c_str(),
                           paths.size(), -0.5, paths.size()-0.5);

    dbe_->setCurrentFolder(pathsSummaryHLTPathsPerLSFolder_.c_str());
    h_name= "HLT_"+label+"_Total_LS";
    h_title = label+" HLT paths total count combined per LS ";
    MonitorElement* ME_Total_LS = dbe_->book1D(h_name.c_str(), h_title.c_str(), nLS_, 0, nLS_);
    ME_Total_LS->setAxisTitle("LS");

    h_name= "HLT_"+label+"_LS";
    h_title = label+" HLT paths count per LS ";
    MonitorElement* ME_Group_LS = dbe_->book2D(h_name.c_str(), h_title.c_str(), nLS_, 0, nLS_, paths.size(), -0.5, paths.size()-0.5);
    ME_Group_LS->setAxisTitle("LS");
    v_ME_HLTAll_LS_.push_back(ME_Group_LS);

    h_name= "HLT_"+label+"_L1_Total_LS";
    h_title = label+" HLT paths total count combined per LS ";
    MonitorElement* ME_Total_L1_LS = dbe_->book1D(h_name.c_str(), h_title.c_str(), nLS_, 0, nLS_);
    ME_Total_L1_LS->setAxisTitle("LS");

    h_name= "HLT_"+label+"_L1_LS";
    h_title = label+" HLT L1s count per LS ";
    MonitorElement* ME_Group_L1_LS = dbe_->book2D(h_name.c_str(), h_title.c_str(), nLS_, 0, nLS_, paths.size(), -0.5, paths.size()-0.5);
    ME_Group_L1_LS->setAxisTitle("LS");

    dbe_->setCurrentFolder(pathsSummaryHLTPathsPerBXFolder_.c_str());
    h_name= "HLT_"+label+"_BX_LS";
    h_title = label+" HLT paths total count combined per BX ";
    MonitorElement* ME_Total_BX = dbe_->book2D(h_name.c_str(), h_title.c_str(),  nLS_, 0, nLS_, 5, -2.5, 2.5);
    ME_Total_BX->setAxisTitle("LS",1);

    for(unsigned int i = 0; i < paths.size(); i++){

      ME->getTH2F()->GetXaxis()->SetBinLabel(i+1, (paths[i]).c_str());
      ME->getTH2F()->GetYaxis()->SetBinLabel(i+1, (paths[i]).c_str());
      ME_Group_LS->getTH2F()->GetYaxis()->SetBinLabel(i+1, (paths[i]).c_str());

      ME_Normalized->getTH2F()->GetXaxis()->SetBinLabel(i+1, (paths[i]).c_str());
      ME_Normalized->getTH2F()->GetYaxis()->SetBinLabel(i+1, (paths[i]).c_str());
      ME_Normalized_Any->getTH1F()->GetXaxis()->SetBinLabel(i+1, (paths[i]).c_str());
      ME_Any->getTH1F()->GetXaxis()->SetBinLabel(i+1, (paths[i]).c_str());

    }
    
}

Member Data Documentation

Definition at line 174 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 172 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

Definition at line 173 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 153 of file FourVectorHLTOnline.h.

std::vector<std::pair<std::string, std::string> > FourVectorHLTOnline::custompathnamepairs_ [private]

Definition at line 189 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and FourVectorHLTOnline().

std::string FourVectorHLTOnline::dirname_ [private]

Definition at line 201 of file FourVectorHLTOnline.h.

Referenced by beginJob(), beginRun(), and FourVectorHLTOnline().

Definition at line 162 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 160 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

Definition at line 161 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

std::string FourVectorHLTOnline::fCustomBXPath [private]

Definition at line 143 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

std::vector<std::pair<std::string, int> > FourVectorHLTOnline::fGroupL1TempCountPair [private]

Definition at line 196 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and countHLTGroupL1HitsEndLumiBlock().

std::vector<std::string> FourVectorHLTOnline::fGroupName [private]

Definition at line 145 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and countHLTGroupBXHitsEndLumiBlock().

std::vector<std::pair<std::string, std::vector<std::string> > > FourVectorHLTOnline::fGroupNamePathsPair [private]
std::vector<std::pair<std::string, int> > FourVectorHLTOnline::fGroupTempCountPair [private]

Definition at line 195 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and countHLTGroupHitsEndLumiBlock().

Definition at line 116 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

std::vector<std::pair<std::string, std::vector<int> > > FourVectorHLTOnline::fPathBxTempCountPair [private]

Definition at line 194 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and countHLTGroupBXHitsEndLumiBlock().

std::vector<std::pair<std::string, int> > FourVectorHLTOnline::fPathTempCountPair [private]

Definition at line 193 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and countHLTPathHitsEndLumiBlock().

Definition at line 208 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), getL1ConditionModuleName(), and hasL1Passed().

Definition at line 565 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

Definition at line 567 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), setupHltBxPlots(), and setupHltLsPlots().

Definition at line 186 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

Definition at line 184 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

double FourVectorHLTOnline::htMin_ [private]

Definition at line 185 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

Definition at line 171 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 169 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

Definition at line 170 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 133 of file FourVectorHLTOnline.h.

Referenced by analyze(), FourVectorHLTOnline(), and setupHltBxPlots().

Definition at line 183 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 181 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

double FourVectorHLTOnline::metMin_ [private]

Definition at line 182 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 204 of file FourVectorHLTOnline.h.

Definition at line 165 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 163 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

Definition at line 164 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 203 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

unsigned int FourVectorHLTOnline::nBins_ [private]

Definition at line 155 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and FourVectorHLTOnline().

unsigned int FourVectorHLTOnline::nBinsOneOverEt_ [private]

Definition at line 156 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and FourVectorHLTOnline().

unsigned int FourVectorHLTOnline::Nbx_ [private]

Definition at line 114 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginJob(), and endJob().

unsigned int FourVectorHLTOnline::nLS_ [private]

Definition at line 139 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and FourVectorHLTOnline().

Definition at line 138 of file FourVectorHLTOnline.h.

Definition at line 137 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline(), and setupHltMatrix().

Definition at line 177 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 175 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

Definition at line 176 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 151 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and FourVectorHLTOnline().

std::string FourVectorHLTOnline::processname_ [private]

Definition at line 202 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

double FourVectorHLTOnline::ptMax_ [private]

Definition at line 158 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

double FourVectorHLTOnline::ptMin_ [private]

Definition at line 157 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

unsigned int FourVectorHLTOnline::referenceBX_ [private]

Definition at line 148 of file FourVectorHLTOnline.h.

Referenced by countHLTGroupBXHitsEndLumiBlock(), and FourVectorHLTOnline().

Definition at line 152 of file FourVectorHLTOnline.h.

Definition at line 210 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

std::vector<std::string> FourVectorHLTOnline::specialPaths_ [private]

Definition at line 199 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and FourVectorHLTOnline().

Definition at line 187 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

Definition at line 168 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 166 of file FourVectorHLTOnline.h.

Referenced by analyze(), beginRun(), and FourVectorHLTOnline().

Definition at line 167 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 205 of file FourVectorHLTOnline.h.

Definition at line 180 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

Definition at line 178 of file FourVectorHLTOnline.h.

Referenced by beginRun(), and FourVectorHLTOnline().

Definition at line 179 of file FourVectorHLTOnline.h.

Referenced by FourVectorHLTOnline().

std::vector<std::vector <uint> > FourVectorHLTOnline::triggerFilterIndices_ [private]

Definition at line 192 of file FourVectorHLTOnline.h.

std::vector<std::vector <std::string> > FourVectorHLTOnline::triggerFilters_ [private]

Definition at line 191 of file FourVectorHLTOnline.h.

Definition at line 213 of file FourVectorHLTOnline.h.

Referenced by analyze(), fillHltMatrix(), hasHLTPassed(), and hasL1Passed().

Definition at line 207 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().

Definition at line 206 of file FourVectorHLTOnline.h.

Referenced by analyze(), and FourVectorHLTOnline().